Gene Regulation By Cold Shock Proteins via Transcription Antitermination

Sangita Phadtare; Konstantin Severinov

doi:10.1002/9781119004813.ch80

Gene Regulation By Cold Shock Proteins via Transcription Antitermination

Sangita Phadtare, Konstantin Severinov

Rowan University, Rutgers, The State University

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Multiple changes occur in cellular physiology in response to downshift from optimal temperature. Some of these are harmful and may interfere with further cell growth. Cold shock proteins are induced to counteract these effects. Cold shock proteins of the CspA family are RNA chaperones that resolve secondary structures in the nucleic acids. At low temperatures, secondary structures in nascent transcripts become stabilized, promoting premature transcription termination and excessive pausing. The CspA family proteins function as antiterminating and antipausing transcription factors. CspA and its homologues play critical roles for cell survival and growth at low temperature by allowing transcription of essential promoter-distal genes, whose expression at low temperatures is attenuated by secondary-structure formation in nascent transcripts.

Original language	American English
Title of host publication	Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria
Publisher	Wiley-Blackwell
Pages	827-836
Number of pages	10
Volume	2
ISBN (Electronic)	9781119004813
ISBN (Print)	9781119004882
DOIs	https://doi.org/10.1002/9781119004813.ch80
State	Published - Aug 12 2016

ASJC Scopus subject areas

General Immunology and Microbiology

Keywords

Cold shock
CspA homologues
Nucleic acid melting
RNA chaperones
Transcription antitermination

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10.1002/9781119004813.ch80

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abstract = "Multiple changes occur in cellular physiology in response to downshift from optimal temperature. Some of these are harmful and may interfere with further cell growth. Cold shock proteins are induced to counteract these effects. Cold shock proteins of the CspA family are RNA chaperones that resolve secondary structures in the nucleic acids. At low temperatures, secondary structures in nascent transcripts become stabilized, promoting premature transcription termination and excessive pausing. The CspA family proteins function as antiterminating and antipausing transcription factors. CspA and its homologues play critical roles for cell survival and growth at low temperature by allowing transcription of essential promoter-distal genes, whose expression at low temperatures is attenuated by secondary-structure formation in nascent transcripts.",

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AU - Severinov, Konstantin

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AB - Multiple changes occur in cellular physiology in response to downshift from optimal temperature. Some of these are harmful and may interfere with further cell growth. Cold shock proteins are induced to counteract these effects. Cold shock proteins of the CspA family are RNA chaperones that resolve secondary structures in the nucleic acids. At low temperatures, secondary structures in nascent transcripts become stabilized, promoting premature transcription termination and excessive pausing. The CspA family proteins function as antiterminating and antipausing transcription factors. CspA and its homologues play critical roles for cell survival and growth at low temperature by allowing transcription of essential promoter-distal genes, whose expression at low temperatures is attenuated by secondary-structure formation in nascent transcripts.

KW - Cold shock

KW - CspA homologues

KW - Nucleic acid melting

KW - RNA chaperones

KW - Transcription antitermination

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M3 - Chapter

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BT - Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria

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ER -

Gene Regulation By Cold Shock Proteins via Transcription Antitermination

Abstract

ASJC Scopus subject areas

Keywords

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