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Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, 2002
In this review, we describe a variety of mechanisms that bacteria use to regulate transcription elongation in order to control gene expression in response to changes in their environment. Together, these mechanisms are known as attenuation and antitermination, and both involve controlling the formation of a transcription terminator structure in the RNA
Paul, Gollnick, Paul, Babitzke
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In this review, we describe a variety of mechanisms that bacteria use to regulate transcription elongation in order to control gene expression in response to changes in their environment. Together, these mechanisms are known as attenuation and antitermination, and both involve controlling the formation of a transcription terminator structure in the RNA
Paul, Gollnick, Paul, Babitzke
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Transcriptional antitermination
Nature, 1993Antiterminator proteins control gene expression by recognizing control signals near the promoter and preventing transcriptional termination which would otherwise occur at sites that may be a long way downstream. The N protein of bacteriophage lambda recognizes a sequence in the nascent RNA, and modifies RNA polymerase by catalysing the formation of a ...
J, Greenblatt, J R, Nodwell, S W, Mason
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Proceedings of the Royal Society of London. Series B. Biological Sciences, 1966
The purine and pyrimidine base sequence of DNA , permanent repository of the genetic information, must be transcribed on to ribopolynucleotides before genotype can be translated into phenotype. This transcription gives rise to three recognizably different classes of RNA molecules: (1) two ...
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The purine and pyrimidine base sequence of DNA , permanent repository of the genetic information, must be transcribed on to ribopolynucleotides before genotype can be translated into phenotype. This transcription gives rise to three recognizably different classes of RNA molecules: (1) two ...
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Critical Reviews in Biochemistry and Molecular Biology, 1993
Chromosomes are organized into units of expression that are bounded by sites where transcription of DNA sequences into RNA is initiated and terminated. To allow for efficient stepwise assembly of complete transcripts, the transcribing enzyme (RNA polymerase) makes a stable complex with the DNA template until it reaches the terminator.
John P. Richardson, Jeffrey W. Roberts
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Chromosomes are organized into units of expression that are bounded by sites where transcription of DNA sequences into RNA is initiated and terminated. To allow for efficient stepwise assembly of complete transcripts, the transcribing enzyme (RNA polymerase) makes a stable complex with the DNA template until it reaches the terminator.
John P. Richardson, Jeffrey W. Roberts
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Transcripts, transcripts, everywhere.
Advances in anatomic pathology, 2002Maureen J. O'Sullivan +3 more
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Best Practice & Research Clinical Rheumatology, 2001
The regulation of gene expression by transcription factors is fundamental to the phenotype of all cells. The activated phenotype of cells engaged in inflammatory processes is characterized by induced expression of a diverse set of genes, including cytokines, enzymes and cell adhesion molecules.
M L, Handel, L, Girgis
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The regulation of gene expression by transcription factors is fundamental to the phenotype of all cells. The activated phenotype of cells engaged in inflammatory processes is characterized by induced expression of a diverse set of genes, including cytokines, enzymes and cell adhesion molecules.
M L, Handel, L, Girgis
openaire +2 more sources