Gene Ontology — View

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GO:0006354

Overview

Field	Value
Namespace	Biological process
Short description	DNA-templated transcription, elongation
Full defintion	The extension of an RNA molecule after transcription initiation and promoter clearance at a DNA-dependent RNA polymerase promoter by the addition of ribonucleotides catalyzed by an RNA polymerase.
Subterm of	GO:0032774

Relationships

The relationship of GO:0006354 with other GO terms.

Relationship type	GO terms
Is a	GO:0032774
Regulates	n.a.
Part of	GO:0006351
Positively regulates	n.a.
Negatively regulates	n.a.

Ancestor tree

A force layout showing the ancestor tree for GO:0006354, and its immediate children. If you wish to explore the tree dynamically, please use the GO Explorer.

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Additional data

This table contains additional metadata associated with the GO entry's definition field.

Field	Value
GOC	txnOH
PMID	RNA polymerase: the vehicle of transcription.Borukhov S, Nudler E Trends Microbiol. 2008 Mar; 16 (3): 126–34.PMID: 18280161 RNA polymerase (RNAP) is the principal enzyme of gene expression and regulation for all three divisions of life: Eukaryota, Archaea and Bacteria. Recent progress in the structural and biochemical characterization of RNAP illuminates this enzyme as a flexible, multifunctional molecular machine. During each step of the transcription cycle, RNAP undergoes elaborate conformational changes. As many fundamental and previously mysterious aspects of how RNAP works begin to be understood, this enzyme reveals intriguing similarities to man-made engineered devices. These resemblances can be found in the mechanics of RNAP-DNA complex formation, in RNA chain initiation and in the elongation processes. Here we highlight recent advances in understanding RNAP function and regulation.

Field

Value

GOC

txnOH

PMID

RNA polymerase: the vehicle of transcription.Borukhov S, Nudler E
Trends Microbiol. 2008 Mar; 16 (3): 126–34.PMID: 18280161

RNA polymerase (RNAP) is the principal enzyme of gene expression and regulation for all three divisions of life: Eukaryota, Archaea and Bacteria. Recent progress in the structural and biochemical characterization of RNAP illuminates this enzyme as a flexible, multifunctional molecular machine. During each step of the transcription cycle, RNAP undergoes elaborate conformational changes. As many fundamental and previously mysterious aspects of how RNAP works begin to be understood, this enzyme reveals intriguing similarities to man-made engineered devices. These resemblances can be found in the mechanics of RNAP-DNA complex formation, in RNA chain initiation and in the elongation processes. Here we highlight recent advances in understanding RNAP function and regulation.

Associated Lotus transcripts

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

No transcripts are associated with this gene ontology identifier.