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User:Momodou L. Jammeh/Sandbox 1

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[[Image:3ICE.jpg|200px||right|thumb|Rho Termination factor with its six identical subunits in various colors]]
[[Image:3ICE.jpg|200px||right|thumb|Rho Termination factor with its six identical subunits in various colors]]
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Transcription is the process of mRNA synthesis by RNA polymerase, an enzyme that uses a strand of DNA as a template for ribonucloetide addition. During this process, RNA polymerase encounters several regulatory proteins, called transcription factors, that effect transcription in various ways. One of these effects is termination. In ''E. coli'', transcription is terminated through rho dependent and independent mechanisms. Rho dependent transcription requires a translocase/helicase called rho factor.
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Transcription is the process of mRNA synthesis by RNA polymerase, an enzyme that uses a strand of DNA as a template for ribonucloetide addition. During this process, RNA polymerase encounters several regulatory proteins, called transcription factors, that effect transcription in various ways. One of the major regulatory activities of transcription regulators is terminating the process at specific sites in the DNA. In ''E. coli'', transcription is terminated through rho dependent and independent mechanisms. Rho dependent transcription requires a translocase/helicase protein called rho factor. Rho factor has helicase activity as it functions by moving on the new mRNA strand toward the RNA polymerase, DNA and RNA complex whose dissociation results in the termination of transcription.
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Revision as of 04:38, 23 April 2011

Contents

RHO TERMINATION FACTOR

INTRODUCTION

Rho Termination factor with its six identical subunits in various colors
Rho Termination factor with its six identical subunits in various colors

Transcription is the process of mRNA synthesis by RNA polymerase, an enzyme that uses a strand of DNA as a template for ribonucloetide addition. During this process, RNA polymerase encounters several regulatory proteins, called transcription factors, that effect transcription in various ways. One of the major regulatory activities of transcription regulators is terminating the process at specific sites in the DNA. In E. coli, transcription is terminated through rho dependent and independent mechanisms. Rho dependent transcription requires a translocase/helicase protein called rho factor. Rho factor has helicase activity as it functions by moving on the new mRNA strand toward the RNA polymerase, DNA and RNA complex whose dissociation results in the termination of transcription.

HISTORY

STRUCTURE

Rho factor in its hexameric form with its six identical subunits forming a helicase and an RNA molecule right through the center

Drag the structure with the mouse to rotate
Rho factor is a hexamer of six identical subunits that interact to form a closed, dynamic structure called a

INHIBITION

Proteopedia Page Contributors and Editors (what is this?)

Momodou L. Jammeh

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