Difference: FreezeSubstitution (1 vs. 40)

Revision 4005 Apr 2011 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
  • freezesub2.jpg:
    freezesub2.jpg

Possible Fixatives

  • Osmium tetroxide 1-4%
  • Uranyl Acetate <3% - 0.1% prevents osmium from turning black
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Changed:
<
<		Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
>
>		Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
 Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3929 Sep 2010 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
  • freezesub2.jpg:
    freezesub2.jpg

Possible Fixatives

Changed:
<
<
  • OsO4 1-4%
  • UA <3%
>
>
  • Osmium tetroxide 1-4%
  • Uranyl Acetate <3% - 0.1% prevents osmium from turning black
 
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3810 Dec 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
  • freezesub2.jpg:
    freezesub2.jpg

Possible Fixatives

Changed:
<
<
  • OsO4? 1-4%
>
>
  • OsO4 1-4%
 
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3702 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
Changed:
<
<		 * freezesub2.jpg:
>
>
  • freezesub2.jpg:
  freezesub2.jpg

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3602 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure * freezesub2.jpg:
Changed:
<
<		 freezesub2.jpg
>
>		 freezesub2.jpg
 

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3502 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
Changed:
<
<		 * freezesub.jpg:
freezesub.jpg
>
>		 * freezesub2.jpg:
freezesub2.jpg
 

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Deleted:
<
<		 * freezesub2.jpg:
freezesub2.jpg
 
Added:
>
>
 
META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
Added:
>
>
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" user="Main.KdDerr" version="1"
 
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"
Deleted:
<
<
META FILEATTACHMENT attachment="freezesub2.jpg" attr="" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" stream="freezesub2.jpg" user="Main.KdDerr" version="1"
 

Revision 3402 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure * freezesub.jpg:
    freezesub.jpg

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>		 * freezesub2.jpg:
freezesub2.jpg
 
META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"
Added:
>
>
META FILEATTACHMENT attachment="freezesub2.jpg" attr="" comment="" date="1254507799" name="freezesub2.jpg" path="freezesub2.jpg" size="143168" stream="freezesub2.jpg" user="Main.KdDerr" version="1"
 

Revision 3302 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure * freezesub.jpg:
    freezesub.jpg

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
Deleted:
<
<
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507087" name="freezesub.jpg" path="freezesub.jpg" size="1277203" user="Main.KdDerr" version="1"
 
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3202 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure * freezesub.jpg:
Changed:
<
<		 freezesub.jpg
>
>		 freezesub.jpg
 

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507087" name="freezesub.jpg" path="freezesub.jpg" size="1277203" user="Main.KdDerr" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 3102 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
Changed:
<
<
>
>		 * freezesub.jpg:
Added:
>
>		 freezesub.jpg
 

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Deleted:
<
<		 * freezesub.jpg:
freezesub.jpg
 
Added:
>
>
 
META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
Added:
>
>
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1254507087" name="freezesub.jpg" path="freezesub.jpg" size="1277203" user="Main.KdDerr" version="1"
 
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"
Deleted:
<
<
META FILEATTACHMENT attachment="freezesub.jpg" attr="" comment="" date="1254507086" name="freezesub.jpg" path="freezesub.jpg" size="1277203" stream="freezesub.jpg" user="Main.KdDerr" version="1"
 

Revision 3002 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure

Possible Fixatives

  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol

  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>		 * freezesub.jpg:
freezesub.jpg
 
META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"
Added:
>
>
META FILEATTACHMENT attachment="freezesub.jpg" attr="" comment="" date="1254507086" name="freezesub.jpg" path="freezesub.jpg" size="1277203" stream="freezesub.jpg" user="Main.KdDerr" version="1"
 

Revision 2902 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample
Deleted:
<
<
 

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

Changed:
<
<		acetone- preserves membranes methanol- polarity such that it does not preserve membrane structure
>
>
  • acetone- preserves membranes
  • methanol- polarity such that it does not preserve membrane structure
 

Possible Fixatives

Changed:
<
<		OsO4? 1-4% UA <3% Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985 Glut <10% Hafnium chloride 0.5% in methanol
>
>
  • OsO4? 1-4%
  • UA <3%
  • Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985
  • Glut <10%
  • Hafnium chloride 0.5% in methanol
 
Changed:
<
<		Eutectic mixtures for freeze sub (Echlin 235) 70% ethylene glycol 30% H2O 40% ethylene glycol 50% Methanol
>
>
  • Eutectic mixtures for freeze sub (Echlin 235)
  • 70% ethylene glycol 30% H2O
  • 40% ethylene glycol 50% Methanol
 

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2802 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
  • Efficiency of various organic solvents
  • Sample size Solution volume= 1000x volume sample

Parameters:

  • Temperature - determined by melting point of solvent

Solvents

acetone- preserves membranes methanol- polarity such that it does not preserve membrane structure

Possible Fixatives

OsO4? 1-4% UA <3% Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985 Glut <10% Hafnium chloride 0.5% in methanol

Eutectic mixtures for freeze sub (Echlin 235) 70% ethylene glycol 30% H2O 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Zalokar 1966 freeze sub rates with dye

Deleted:
<
<

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C
 

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2702 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important considerations in protocol design

  • Rate of substitution process
Added:
>
>
    • faster substitution- larger ice crystal
    • slower substitution- discontinuous ice
 
  • Efficiency of various organic solvents
Changed:
<
<
  • Sample size
>
>
  • Sample size Solution volume= 1000x volume sample
 
Added:
>
>
 

Parameters:

  • Temperature - determined by melting point of solvent
Added:
>
>

Solvents

acetone- preserves membranes methanol- polarity such that it does not preserve membrane structure

Possible Fixatives

OsO4? 1-4% UA <3% Acrolien 5-20% in acetone Ornberg & Reese 1981 Murata 1985 Glut <10% Hafnium chloride 0.5% in methanol

Eutectic mixtures for freeze sub (Echlin 235) 70% ethylene glycol 30% H2O 40% ethylene glycol 50% Methanol

Example protocol

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C
 

Useful Reference Articles:

Deleted:
<
<
 Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Changed:
<
<		Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)
>
>		Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
 Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Changed:
<
<

Example protocols

>
>		Zalokar 1966 freeze sub rates with dye
Added:
>
>

Example protocol

 
  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C
Deleted:
<
<

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

 

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2602 Oct 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Changed:
<
<

Important consideration in protocol design

>
>

Important considerations in protocol design

 
  • Rate of substitution process
  • Efficiency of various organic solvents
Added:
>
>
  • Sample size
 

Parameters:

  • Temperature - determined by melting point of solvent

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2503 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="CemProtoc"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C
Deleted:
<
<

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin
 

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2403 Sep 2009 - Main.KdDerr

Changed:
<
<
META TOPICPARENT name="CryoSP"
>
>
META TOPICPARENT name="CemProtoc"
 Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2302 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="CryoSP"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Jump to Protocol

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Deleted:
<
<

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

 

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Deleted:
<
<

Freeze Substitution Guidelines

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle
 

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2202 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="CryoSP"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Principles - Freeze Substitution

Changed:
<
<

*Jump to Protocol

>
>

Jump to Protocol

 

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Freeze Substitution Guidelines

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2102 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="CryoSP"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Changed:
<
<

Freeze Substitution

>
>

Principles - Freeze Substitution

Added:
>
>

*Jump to Protocol

 

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Freeze Substitution Guidelines

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 2002 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="CryoSP"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Freeze Substitution

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Freeze Substitution Guidelines

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1901 Sep 2009 - Main.KdDerr

Changed:
<
<
META TOPICPARENT name="SamplePreparation"
>
>
META TOPICPARENT name="CryoSP"
 Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Freeze Substitution

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Freeze Substitution Guidelines

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1801 Sep 2009 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Freeze Substitution

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Changed:
<
<		 Freeze Substitution Guidelines
>
>

Freeze Substitution Guidelines

Deleted:
<
<		Contents
 

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1726 Aug 2009 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Principles & Protocols

Changed:
<
<

Freeze Substituion

>
>

Freeze Substitution

 

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1626 Aug 2009 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM
Changed:
<
<
>
>
Added:
>
>

Principles & Protocols

Freeze Substituion

Important consideration in protocol design

  • Rate of substitution process
  • Efficiency of various organic solvents

Parameters:

  • Temperature - determined by melting point of solvent

Solution Prepartation

Here is Kent Mc Donald's recipe for preparing FS solutions (from Exhibit C):

To make up 50 ml of Fixative: REMEMBER! YOU MUST WEAR DOUBLE GLOVES FOR THIS PROCEDURE AND WORK WELL INSIDE IN A FUME HOOD THAT DRAWS WELL. OSMIUM IN ACETONE IS VERY VOLATILE!
  1. Label, with the #2 pencil, about 35 Nalgene 2.0 ml cryovials.
  2. Put vials in vial rack with tops off.
  3. Make up stock solution of 5% uranyl acetate in methanol by adding 0.1 g of uranyl acetate to 2 ml pure methanol, cover with foil and put on rocker to dissolve. It should dissolve in about 10 minutes, but if it doesn't, just let it rock longer. Different vintages of uranyl acetate crystals seem to dissolve at different rates.
  4. Dip a 1 g OsO4? ampule for about 10 seconds into liquid nitrogen to loosen crystals from glass.
  5. Fill 50 ml conical tube with 45 ml pure acetone.
  6. Add 1 g OsO4? crystals to the 45 ml of acetone, cover and mix until completely dissolved.
  7. Add 1 ml 5% uranyl acetate stock to OsO4?-acetone, add pure acetone to make 50 ml and mix well.
  8. Use repeater pipettor to dispense 1.5 ml into each cryovial. Work quickly, but not carelessly. Cap cryovials as soon as they are filled.
  9. Add LN2 to Styrafoam box to a level that will cover cryovials in rack.
  10. Slowly lower rack into LN2. Vials must remain upright so fixative will remain in the bottom of the vial.
  11. When completely frozen, transfer vials to LN2 storage device until ready to use.

Useful Reference Articles:

Giddings, T.H. “Freeze Substitution protocols for improved visualization of membranes in high pressure frozen samples,” Journal of microscopy, vol 212 pt1 Oct 2003 pp 53-61 (discussion of FS solutions)

Kellenberger, Edward, “The response of Biological Macromolecules and Supramolecular Structures to the Physics of Specimen Cryoprepartation,” Cryotechniques in Biological Electron Microscopy, chapter 2, Springer-Verlag, Berlin Heidelberg, 1987 (hydration shell theory)

Mc Donald and Muller. "Exhibit C: Cryomethods for Thin Section Electron Microscopy." Sept 18, 2006.

Morphew, Mary K. “Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry,” Can Download from specimen preparation page of: http://bio3d.colorado.edu/ (good general and some FS solution explanation)

Steinbrecht and Muller, “Freeze Substitution and Freeze Drying,” Cryotechniques in Biological Electron Microscopy, chapter 7, Springer-Verlag, Berlin Heidelberg, 1987 (Solvent water capacity at low temp table)

Walther and Ziegler, “Freeze substitution of high-pressure frozen samples: the visibility of biological membranes is improved when the substitution medium contains water,” J. Microscopy, vol 208 pt 1, pp 3-10, Oct 2002

  Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1513 Dec 2007 - Main.DavidStokes

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Changed:
<
<		Morphew-HPF-frz-subst-manual.pdfMorphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
>
>		Morphew-HPF-frz-subst-manual.pdf: Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
 

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"

Revision 1413 Dec 2007 - Main.DavidStokes

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Changed:
<
<		Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
>
>		Morphew-HPF-frz-subst-manual.pdfMorphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO
 
Added:
>
>
 

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Deleted:
<
<		 * Morphew-HPF-frz-subst-manual.pdf: Mary Morphew paper with recipes
 
Changed:
<
<
META FILEATTACHMENT attachment="Embedding_Schedule_for_HPF_Samples.doc" attr="" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding Schedule for HPF Samples.doc" size="20992" stream="Embedding Schedule for HPF Samples.doc" user="Main.KdDerr" version="1"
META FILEATTACHMENT attachment="Morphew-HPF-frz-subst-manual.pdf" attr="" comment="Mary Morphew paper with recipes" date="1197568781" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" stream="Morphew-HPF-frz-subst-manual.pdf" user="Main.DavidStokes" version="0"
>
>
META FILEATTACHMENT attr="" autoattached="1" comment="Mary Morphew paper with recipes" date="1197568782" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" user="Main.DavidStokes" version=""
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding_Schedule_for_HPF_Samples.doc" size="20992" user="Main.KdDerr" version="1"
 

Revision 1313 Dec 2007 - Main.DavidStokes

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
  • Embedding_Schedule_for_HPF_Samples.doc:

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>		 * Morphew-HPF-frz-subst-manual.pdf: Mary Morphew paper with recipes
 
META FILEATTACHMENT attachment="Embedding_Schedule_for_HPF_Samples.doc" attr="" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding Schedule for HPF Samples.doc" size="20992" stream="Embedding Schedule for HPF Samples.doc" user="Main.KdDerr" version="1"
Added:
>
>
META FILEATTACHMENT attachment="Morphew-HPF-frz-subst-manual.pdf" attr="" comment="Mary Morphew paper with recipes" date="1197568781" name="Morphew-HPF-frz-subst-manual.pdf" path="Morphew-HPF-frz-subst-manual.pdf" size="53541" stream="Morphew-HPF-frz-subst-manual.pdf" user="Main.DavidStokes" version="0"
 

Revision 1206 Dec 2007 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)
Added:
>
>
 
Added:
>
>
 

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Deleted:
<
<		 * Embedding_Schedule_for_HPF_Samples.doc: Embedding_Schedule_for_HPF_Samples.doc
 
META FILEATTACHMENT attachment="Embedding_Schedule_for_HPF_Samples.doc" attr="" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding Schedule for HPF Samples.doc" size="20992" stream="Embedding Schedule for HPF Samples.doc" user="Main.KdDerr" version="1"

Revision 1106 Dec 2007 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>		 * Embedding_Schedule_for_HPF_Samples.doc: Embedding_Schedule_for_HPF_Samples.doc

META FILEATTACHMENT attachment="Embedding_Schedule_for_HPF_Samples.doc" attr="" comment="" date="1196978985" name="Embedding_Schedule_for_HPF_Samples.doc" path="Embedding Schedule for HPF Samples.doc" size="20992" stream="Embedding Schedule for HPF Samples.doc" user="Main.KdDerr" version="1"
 

Revision 1009 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
Added:
>
>
  • Large forceps
  • Styrofoam box to work in
  • Pipettes
 
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 909 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare substituion solution (e.g. OsO4 solution?)
Changed:
<
<
  • Transfer frozen hats to frozen substitution solution in liquid nitrogen
>
>
  • Transfer frozen hats to frozen substitution solution under liquid nitrogen environment
 
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 809 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
Changed:
<
<
>
>
  • Prepare substituion solution (e.g. OsO4 solution?)
 
  • Transfer frozen hats to frozen substitution solution in liquid nitrogen
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 709 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • Pencil
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
Changed:
<
<
>
>
 
  • Transfer frozen hats to frozen substitution solution in liquid nitrogen
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 609 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
Added:
>
>
  • Pencil
 
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare SubstituionSolution
  • Transfer frozen hats to frozen substitution solution in liquid nitrogen
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 509 Jun 2006 - Main.KdDerr

 
META TOPICPARENT name="SamplePreparation"
Changed:
<
<		Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent ethanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Transfer frozen hats to frozen acetone solution in liquid nitrogen
  • Place max of two specimen per cryotube
  • Insert samples into sample well
  • Begin freeze substitution

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

>
>		Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Gloves
  • Oxygen Moniter
  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS through funnel with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent methanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Prepare SubstituionSolution
  • Transfer frozen hats to frozen substitution solution in liquid nitrogen
  • Place maximum of two specimen per cryotube
  • Insert samples into AFS sample well
  • Begin freeze substitution cycle

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>
 

Revision 422 Mar 2005 - Main.DavidStokes

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Cryovials
  • Substitution fluid (e.g. OsO4 solution?)
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent ethanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Transfer frozen hats to frozen acetone solution in liquid nitrogen
  • Place max of two specimen per cryotube
  • Insert samples into sample well
  • Begin freeze substitution

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Added:
>
>
 

Revision 318 Mar 2005 - Main.DavidStokes

 
META TOPICPARENT name="SamplePreparation"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Cryovials
Changed:
<
<
  • Substitution fluid
>
>
  • Substitution fluid (e.g. OsO4 solution?)
 
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent ethanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Transfer frozen hats to frozen acetone solution in liquid nitrogen
  • Place max of two specimen per cryotube
  • Insert samples into sample well
  • Begin freeze substitution

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 218 Mar 2005 - Main.DavidStokes

Changed:
<
<
META TOPICPARENT name="CemfacGroup"
>
>
META TOPICPARENT name="SamplePreparation"
 Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Cryovials
  • Substitution fluid
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent ethanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Transfer frozen hats to frozen acetone solution in liquid nitrogen
  • Place max of two specimen per cryotube
  • Insert samples into sample well
  • Begin freeze substitution

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

Revision 118 Mar 2005 - Main.DavidStokes

 
META TOPICPARENT name="CemfacGroup"
Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

Freeze Substitution Guidelines

Contents

You will need:

  • Cryovials
  • Substitution fluid
  • Methanol
  • Ethanol
  • LN2 (tank full)

Procedure:

  • Wear oxygen monitor and fill AFS with liquid nitrogen.
  • Warm up sample well to 30C for 30 min to remove all moisture.

  • After heat cycle fill sample well with reagent ethanol
  • Program substitution sequence
    • If a sequence is running press pause and hold until you hear three beeps
  • Begin program and pause until starting temperature is reached

  • Label Nalgene cryotubes with pencil
  • Transfer frozen hats to frozen acetone solution in liquid nitrogen
  • Place max of two specimen per cryotube
  • Insert samples into sample well
  • Begin freeze substitution

Example protocols

  • Number 1
    • 72h @-90C
    • 12h@-60C
    • 6h@-30C
    • 3h@0C
    • 1h@room temperature (do not allow to sit at room temperature for more than one hour sample will turn black.)
    • All temperature changes with 5-10C/h slopes
    • Samples should be held at -90C for a minimum of 3 days
    • Warming samples to room temperature can take from 18h to 2 days
    • Substitution fluid can be changed during cycle
  • Number 2
    • 72h @-90C
    • 12h@-30C
  • Number 3
    • 8 h @-90C
    • 8 h @-60C
    • 8 h @-30C

Finally

  • Rinse 3x with dehydrated acetone for 1h each
  • Infiltrate with resin

References

Morphew, Mary K. "Practical Methods in High Pressure Freezing, Freeze Substitution, Embedding and Immunocytochemistry," Boulder, CO

Return to Cryo EM web page at http://www.nysbc.org/facilities/CEM

-- DavidStokes - 18 Mar 2005

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