Difference: PaulGottlieb (1 vs. 20)

Revision 2008 Jan 2013 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

My Project Logbook-Influenza

My Project Logbook-bacteriophage

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Public record grant information

NIH Award Abstract - CAREER: The Molecular Structure of the RNA Polymerase Portal of a Bacteriophage-Reovirus

NIH Org NATIONAL INSTITUTE OF GENERAL MEDICAL SCIENCES Intial Amendment Date May 2010 Latest Amendment Date June 2015 Award Number 1SC1GM092781-01 Award Instrument SCORE SC1 Program Manager Michael Sakalian, Ph.D. Start Date May, 2010 Expires June 2015 (Estimated) Awarded Amount to Date $450,000 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College 160 Convent Avenue New York, NY 10031 212/650-5418 Abstract

GOTTLIEB: My group has established a comprehensive research program that includes industrial as well as academic subjects. Our virology research focuses upon viral structure, viral assembly, and pathogenicity. Specific projects are defining the replication and assembly mechanisms of Cystoviridae (bacterial reovirus), determining the viral relationships of Epstein Barr Virus (EBV) and Systemic Lupus Erythematosus (SLE), and elaborating upon the structure of influenza vaccine viral particles. We also collaborate with scientists in both the Earth Atmospheric and Space and Physics departments in order to study microbial-environmental interactions that focus on the influence of clay on the assembly of bacterial biofilms.

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Revision 1918 Dec 2012 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

My Project Logbook-Influenza

My Project Logbook-bacteriophage

Personal Preferences (details in TWikiVariables)
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Public record grant information

Changed:
<
<		NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology
>
>		NIH Award Abstract - CAREER: The Molecular Structure of the RNA Polymerase Portal of a Bacteriophage-Reovirus
 
Changed:
<
<		NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000
>
>		NIH Org NATIONAL INSTITUTE OF GENERAL MEDICAL SCIENCES Intial Amendment Date May 2010 Latest Amendment Date June 2015 Award Number 1SC1GM092781-01 Award Instrument SCORE SC1 Program Manager Michael Sakalian, Ph.D. Start Date May, 2010 Expires June 2015 (Estimated) Awarded Amount to Date $450,000
Deleted:
<
<		Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858
 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College
Changed:
<
<		Convent Ave at 138th St
>
>		160 Convent Avenue
 New York, NY 10031 212/650-5418
Deleted:
<
<		NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154
 Abstract
Changed:
<
<		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.
>
>		 GOTTLIEB: My group has established a comprehensive research program that includes industrial as well as academic subjects. Our virology research focuses upon viral structure, viral assembly, and pathogenicity. Specific projects are defining the replication and assembly mechanisms of Cystoviridae (bacterial reovirus), determining the viral relationships of Epstein Barr Virus (EBV) and Systemic Lupus Erythematosus (SLE), and elaborating upon the structure of influenza vaccine viral particles. We also collaborate with scientists in both the Earth Atmospheric and Space and Physics departments in order to study microbial-environmental interactions that focus on the influence of clay on the assembly of bacterial biofilms.
 
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Revision 1820 Nov 2009 - Main.KdDerr

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI
Changed:
<
<
>
>

My Project Logbook-Influenza

Added:
>
>

My Project Logbook-bacteriophage

 Personal Preferences (details in TWikiVariables)
  • Horizontal size of text edit box:
    • Set EDITBOXWIDTH = 70
  • Vertical size of text edit box:
    • Set EDITBOXHEIGHT = 17
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    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 1712 Nov 2008 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 1606 Aug 2008 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

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    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 1501 Apr 2008 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

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  • Optionally write protect your home page: (set it to your WikiName)
    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

Changed:
<
<		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the projectyiyiu is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this projectyiyiu centers on developing a virology program for undergraduate, graduate, and advanced high school students.
>
>		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.
 
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Revision 1421 Mar 2008 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

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    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

Changed:
<
<		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.
>
>		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the projectyiyiu is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this projectyiyiu centers on developing a virology program for undergraduate, graduate, and advanced high school students.
 
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Revision 1314 Dec 2007 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: PI

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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 1229 May 2007 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
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  • Company URL:
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  • Country: USA
Changed:
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<
  • Comment:
>
>
  • Comment: PI
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

Added:
>
>
 
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Changed:
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>
>
META FILEATTACHMENT attr="" autoattached="1" comment="phi12 reconstruction 3" date="1161178239" name="phi12-p20.mpg" path="phi12-p20.mpg" size="2522899" user="Main.PaulGottlieb" version=""
 

Revision 1118 Oct 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment:

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  • Optionally write protect your home page: (set it to your WikiName)
    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

Added:
>
>
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META FILEATTACHMENT attr="" autoattached="1" comment="" date="1150049443" name="Poster_Slide_final.ppt" path="Poster_Slide_final.ppt" size="10713088" user="Main.PaulGottlieb" version="2"
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Changed:
<
<
META FILEATTACHMENT attachment="phi12-p4.mpg" attr="" comment="phi12 reconstruction 2" date="1161178177" name="phi12-p4.mpg" path="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\phi 12 images\Particle structure\Cryo EM\tomagraphy phi12\phi12 reconstr\phi12-p4.mpg" size="2351096" stream="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\phi 12 images\Particle structure\Cryo EM\tomagraphy phi12\phi12 reconstr\phi12-p4.mpg" user="Main.PaulGottlieb" version="0"
>
>
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Revision 1018 Oct 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment:

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    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

Changed:
<
<
META FILEATTACHMENT attachment="Poster_Slide_final.ppt" attr="" comment="" date="1150049442" name="Poster_Slide_final.ppt" path="C:\Documents and Settings\Paul\My Documents\2006 meeting\Poster_Slide final.ppt" size="10713088" stream="C:\Documents and Settings\Paul\My Documents\2006 meeting\Poster_Slide final.ppt" user="Main.PaulGottlieb" version="2"
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>
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Added:
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Revision 918 Oct 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment:

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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

META FILEATTACHMENT attachment="Poster_Slide_final.ppt" attr="" comment="" date="1150049442" name="Poster_Slide_final.ppt" path="C:\Documents and Settings\Paul\My Documents\2006 meeting\Poster_Slide final.ppt" size="10713088" stream="C:\Documents and Settings\Paul\My Documents\2006 meeting\Poster_Slide final.ppt" user="Main.PaulGottlieb" version="2"
Added:
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Revision 811 Jun 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment:

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  • Optionally write protect your home page: (set it to your WikiName)
    • Set ALLOWTOPICCHANGE =

Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

Changed:
<
<
META FILEATTACHMENT attachment="Poster_Slide_final.ppt" attr="" comment="" date="1149862071" name="Poster_Slide_final.ppt" path="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\my file\seminars and meetings\FASEB\2006 meeting\Poster_Slide final.ppt" size="9483264" stream="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\my file\seminars and meetings\FASEB\2006 meeting\Poster_Slide final.ppt" user="Main.PaulGottlieb" version="1"
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Revision 709 Jun 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment:

Personal Preferences (details in TWikiVariables)

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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 609 Jun 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

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Revision 508 Jun 2006 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"
  • Name: Paul Gottlieb
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

Added:
>
>
META FILEATTACHMENT attachment="Poster_Slide_final.ppt" attr="" comment="" date="1149789017" name="Poster_Slide_final.ppt" path="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\my file\seminars and meetings\FASEB\2006 meeting\Poster_Slide final.ppt" size="8356352" stream="C:\Documents and Settings\Paul Gottlieb\My Documents\Paul files\my file\seminars and meetings\FASEB\2006 meeting\Poster_Slide final.ppt" user="Main.PaulGottlieb" version="1"
 

Revision 402 Jun 2006 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

Changed:
<
<		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.
>
>		 GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.
 

Revision 302 Jun 2006 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
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<
  • Name: Paul Gottlieb
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  • Country: USA
  • Comment: place holder for record purposes
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>
  • Name: Paul Gottlieb
  • Email: pgottl@med.cuny.edu
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

 
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Related topics

Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

 

Revision 220 Jun 2005 - Main.DavidCowburn

 
META TOPICPARENT name="TWikiUsers"
Deleted:
<
<
 
  • Name: Paul Gottlieb
  • Email: dcadmin@nysbc.org
  • Company Name: CUNY
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  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: place holder for record purposes

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Related topics

Added:
>
>		Public record grant information

NSF Award Abstract - #9984310 CAREER: Integrated Study and Research in Virology

NSF Org MCB Intial Amendment Date January 14, 2000 Latest Amendment Date December 3, 2002 Award Number 9984310 Award Instrument Continuing grant Program Manager Joanne S. Tornow MCB Division of Molecular and Cellular Biosciences BIO Directorate for Biological Sciences Start Date February 1, 2000 Expires December 31, 2004 (Estimated) Awarded Amount to Date $391858 Investigator(s) Paul Gottlieb pgottl@med.cuny.edu(Principal Investigator) Sponsor CUNY City College Convent Ave at 138th St New York, NY 10031 212/650-5418 NSF Program(s) GENE EXPRESSION Field Application(s) 0000099 Other Applications NEC Program Reference Code(s) BIOT,9183,1045 Program Element Code(s) 1154 Abstract

GOTTLIEB: This research will emphasize two scientific projects that demonstrate the fundamentals of virological research for a wide range of students, including those scientifically advanced in High School, undergraduates, and graduate students. "Hands-on" laboratory experience that provides students with the opportunity to develop and test hypotheses and to acquire rigorous scientific methodologies will best reinforce the lessons of the classroom. In this regard, the research includes the following two projects. The three-segmented dsRNA containing Cystoviridae is a non-pathogenic model for the Reoviridae. The goal of the Cystoviridae research is to establish an in vitro RNA replication and packaging system for phi12, one of the newly discovered cystoviruses. Embarking upon a comparative study of these viruses will result in understanding the role of genetic and structural variation on their replicative mechanisms and evolution and answer extant questions in reovirus biology. The aim of the second portion of the project is to test the hypothesis that the alteration of a self antigen by interaction with a viral antigen can render the self antigen immunogenic. The self-antigen to be studied in this case is dsDNA which is proposed to be rendered immunogenic by binding with the EBNA-1 protein of the Epstein-Barr Virus. Integrating teaching with active student research in the molecular biology of viruses, this project centers on developing a virology program for undergraduate, graduate, and advanced high school students.

 

Revision 120 Jun 2005 - Main.PaulGottlieb

 
META TOPICPARENT name="TWikiUsers"

  • Name: Paul Gottlieb
  • Email: dcadmin@nysbc.org
  • Company Name: CUNY
  • Company URL:
  • Location: CUNYCCNYOffice
  • Country: USA
  • Comment: place holder for record purposes

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Related topics

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