Difference: NysbdgSpeakers (1 vs. 17)

Revision 1721 Apr 2012 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
Added:
>
>

WInter 12

 
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
  • Burçe Ergel (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, Examining mechanisms underlying microtubule self-organization
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • David Stokes, NYU, TBA
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Ergel (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu Examining mechanisms underlying microtubule self-organization -
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
David Stokes NYU stokes@nyu.edu TBA -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Added:
>
>

Revision 1620 Apr 2012 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
  • Burçe Ergel (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, Examining mechanisms underlying microtubule self-organization
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • David Stokes, NYU, TBA
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Ergel (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu Examining mechanisms underlying microtubule self-organization -
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
David Stokes NYU stokes@nyu.edu TBA -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Deleted:
<
<

Revision 1524 Nov 2011 - Main.MingZhou

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
  • Burçe Ergel (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
Changed:
<
<
  • Tarun Kapoor, Rockefeller University, TBA
>
>
  • Tarun Kapoor, Rockefeller University, Examining mechanisms underlying microtubule self-organization
 
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • David Stokes, NYU, TBA
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Ergel (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Changed:
<
<
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu TBA -
>
>
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu Examining mechanisms underlying microtubule self-organization -
 
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
David Stokes NYU stokes@nyu.edu TBA -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Added:
>
>

Revision 1421 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
  • Burçe Ergel (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, TBA
Changed:
<
<
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structure of the yeast GAL regulon
>
>
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction
 
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • David Stokes, NYU, TBA
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Ergel (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu TBA -
Changed:
<
<
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structure of the yeast GAL regulon -
>
>
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structural study of the GAL regulon in S. cerevisiae: the Gal3p/Gal80p interaction -
 
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
David Stokes NYU stokes@nyu.edu TBA -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Revision 1320 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
Changed:
<
<
  • Burçe Erge (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
>
>
  • Burçe Ergel (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
 
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, TBA
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structure of the yeast GAL regulon
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • David Stokes, NYU, TBA
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATIONdown EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Changed:
<
<
Burçe Erge (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
>
>
Burçe Ergel (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
 
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu TBA -
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structure of the yeast GAL regulon -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
David Stokes NYU stokes@nyu.edu TBA -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Deleted:
<
<

Revision 1219 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
  • Burçe Erge (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, TBA
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structure of the yeast GAL regulon
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
Added:
>
>
  • David Stokes, NYU, TBA
 
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Erge (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu TBA -
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structure of the yeast GAL regulon -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
Added:
>
>
David Stokes NYU stokes@nyu.edu TBA -
 
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -

Revision 1118 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
Changed:
<
<
  • Ken Dill, SUNY Stony Brook, TBA
>
>
  • Ken Dill, SUNY Stony Brook, Physical constraints on proteomes and protein evolution
 
  • Burçe Erge (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
  • Tarun Kapoor, Rockefeller University, TBA
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structure of the yeast GAL regulon
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology
Added:
>
>

Tabular form

NAME AFFILIATION EMAIL TITLE COMMENT
Anthony Armstrong (Lima Lab), MSKCC armstroa@mskcc.org Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA -
Ken Dill SUNY Stony Brook dill@laufercenter.org Physical constraints on proteomes and protein evolution -
Burçe Erge (Hunt/ Palmer Labs) Columbia U. be2141@columbia.edu Protein dynamics control progression of a multi-step catalytic reaction -
Hiro Furukawa CSHL furukawa@cshl.com Structural dissection of NMDA receptor pharmacology -
David Fushman U Maryland fushman@umd.edu Playing LEGO with ubiquitin -
Tarun Kapoor Rockefeller University tarun.kapoor@rockefeller.edu TBA -
Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor tlavy@cshl.edu Structure of the yeast GAL regulon -
Chris Sander MSKCC sanderc@mskcc.org Protein 3D Structure from Evolutionary Sequence Variation -
Robert Sweet BNL / NSLS rsweet@bnl.gov Update on NSLS-II -
Liang Tong Columbia U. ltong@columbia.edu Structure of the 750kD MCC holoenzyme: sequence versus structural homology -
 

Revision 1018 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
  • Ken Dill, SUNY Stony Brook, TBA
Changed:
<
<
  • Burçe Erge (Hunt/ Palmer Labs), TBA
>
>
  • Burçe Erge (Hunt/ Palmer Labs) Columbia U., Protein dynamics control progression of a multi-step catalytic reaction
 
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
Changed:
<
<
  • David Fushman, U Maryland, TBA
>
>
  • David Fushman, U Maryland, Playing LEGO with ubiquitin
 
  • Tarun Kapoor, Rockefeller University, TBA
Added:
>
>
  • Tali Lavy (Joshua-Tor Lab) Cold Spring Harbor, Structure of the yeast GAL regulon
 
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
Changed:
<
<
  • Liang Tong, Columbia, TBA
>
>
  • Liang Tong, Columbia U., Structure of the 750kD MCC holoenzyme: sequence versus structural homology
 

Added:
>
>

Revision 917 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
Changed:
<
<
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
>
>
  • Anthony Armstrong (Lima Lab), MSKCC, Parsing recognition of a SUMO-modified substrate: Recruitment of the anti-recombinogenic helicase Srs2 by SUMO-PCNA
 
  • Ken Dill, SUNY Stony Brook, TBA
  • Burçe Erge (Hunt/ Palmer Labs), TBA
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
  • David Fushman, U Maryland, TBA
  • Tarun Kapoor, Rockefeller University, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Deleted:
<
<

Revision 817 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
  • Ken Dill, SUNY Stony Brook, TBA
  • Burçe Erge (Hunt/ Palmer Labs), TBA
Added:
>
>
  • Hiro Furukawa, CSHL, Structural dissection of NMDA receptor pharmacology
 
  • David Fushman, U Maryland, TBA
  • Tarun Kapoor, Rockefeller University, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Added:
>
>

Revision 717 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
  • Ken Dill, SUNY Stony Brook, TBA
  • Burçe Erge (Hunt/ Palmer Labs), TBA
  • David Fushman, U Maryland, TBA
  • Tarun Kapoor, Rockefeller University, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Revision 617 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
  • Ken Dill, SUNY Stony Brook, TBA
Changed:
<
<
  • Burce Erge (Hunt/ Palmer Labs), TBA
>
>
  • Burçe Erge (Hunt/ Palmer Labs), TBA
 
  • David Fushman, U Maryland, TBA
  • Tarun Kapoor, Rockefeller University, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Deleted:
<
<

Revision 517 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
Added:
>
>
  • Ken Dill, SUNY Stony Brook, TBA
  • Burce Erge (Hunt/ Palmer Labs), TBA
 
  • David Fushman, U Maryland, TBA
  • Tarun Kapoor, Rockefeller University, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Revision 415 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
  • David Fushman, U Maryland, TBA
Added:
>
>
  • Tarun Kapoor, Rockefeller University, TBA
 
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Added:
>
>

Revision 315 Nov 2011 - Main.DavidCowburn

 
META TOPICPARENT name="NysbdgGroup"
Changed:
<
<		a16 1
>
>
  • Anthony Armstrong (Lima Lab), MSKCC, TBA
 
  • David Fushman, U Maryland, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA

Revision 214 Nov 2011 - Main.DavidCowburn

Changed:
<
<

CONFIRMED

>
>
META TOPICPARENT name="NysbdgGroup"
Added:
>
>		a16 1
 
  • David Fushman, U Maryland, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation
Added:
>
>
  • Robert Sweet, BNL / NSLS, Update on NSLS-II
  • Liang Tong, Columbia, TBA
 
Added:
>
>
 

Revision 111 Nov 2011 - Main.DavidCowburn

 

CONFIRMED

  • David Fushman, U Maryland, TBA
  • Chris Sander, MSKCC, Protein 3D Structure from Evolutionary Sequence Variation

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