Terminator: Difference between revisions
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Terminators in transcription |
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<span style="line-height: 1.5em;">Transcription terminators are sections of the [[DNA|DNA]] seqeucne which mark the end of the gene in the genomic DNA during [[transcription|transcription]]. The transcription terminator provides signals that release the newly synthesised [[mRNA|mRNA]] from the transcriptional complex. It also causes reactions which release [[RNA_polymerase|RNA polymerase]] from the complex.</span> | |||
There are two types of transcription terminators the [[Rho_dependent_termination|Rho-dependent]] and the [[Rho-independent termination|Rho-independent]] in the [[prokaryotes|prokaryotes]]. Rho- dependent terminators require a RHO factor which stimultes [[DNA helicase|DNA helicase]] to unwind the double heli of DNA. Howver Rho-independent require the formation of a self-annealing hairpin which will unwind the double helix. | |||
There are two types of transcription terminators the Rho-dependent and the Rho-independent in the prokaryotes. Rho- dependent terminators require a RHO factor which stimultes DNA helicase to unwind the double heli of DNA. Howver Rho-independent require the formation of a self-annealing hairpin which will unwind the double helix. | |||
Revision as of 06:17, 26 November 2014
Transcription terminators are sections of the DNA seqeucne which mark the end of the gene in the genomic DNA during transcription. The transcription terminator provides signals that release the newly synthesised mRNA from the transcriptional complex. It also causes reactions which release RNA polymerase from the complex.
There are two types of transcription terminators the Rho-dependent and the Rho-independent in the prokaryotes. Rho- dependent terminators require a RHO factor which stimultes DNA helicase to unwind the double heli of DNA. Howver Rho-independent require the formation of a self-annealing hairpin which will unwind the double helix.