Transcription initiation procaryotic

Transcription initiation in procaryotes is controlled via promoters and regulatory DNA sequences located near the promoter. The role of the promoter is to provide a defined association site for the RNA polymerase and to correctly orient it. The binding of the RNA polymerase to its promoter is controlled by the sigma factor, a component of the RNA polymerase holoenzyme. The sigma factor selects which genes are to be transcribed by specifically recognizing the promoter sequence and structure and by allowing the RNA polymerase to form a transcription-competent complex at the transcription start site. 

Fig. 1.27. Two-step mechanism of transcription initiation. The binding of a procaryotic RNA polymerase to its promoter can be subdivided into two steps. In the first step the RNA polymerase binds to the closed promoter with low affinity. The closed complex isomerizes in a second step to an open complex in which the promoter is partially unwound. Detailed consideration reveals that further steps can be distinguished. These are not shown here for simplicity reasons.

The general transcription initiation factors can be assigned the role fulfilled by a single protein in procaryotes-namely the o-factor. This role includes the correct positioning of the RNA polymerase on the promoter and the preparation for the incorporation of the first nucleotide. 

Fig. 1.29. Mechanism of promoter activation of (/ -dependent genes in procaryotes. The formation of an open, initiation-competent transcription complex for (/ -dependent genes requires the assistance of transcription activators, which bind to their cognate UAS element. Upon loop formation of the intervening DNA sequences, the transcription activator interacts with the (/ -con-taing RNA polymerase bound to the promoter. The activation is accompanied by ATP hydrolysis and leads to the formation of an open complex.

As in procaryotes, the elementary steps of initiation, elongation and termination can be distinguished in eucaryotic transcription. Aside from the specific RNA polymerases, transcription in eucaryotes requires the action of numerous other proteins which are collectively known as transcription factors. Transcription factors are required at the level of initiation, elongation, and termination and are accordingly known as initiation factors, elongation factors and termination factors of transcription. 

In contrast to the procaryotes, where the o -holoenzyme of the RNA polymerase can initiate transcription without the aid of accessory factors, the eucaryotic RNA polymerase requires the help of numerous proteins to begin transcription. These proteins are termed basal or general initiation factors of transcription. Together with RNA polymerase II, they participate in the basal transcription apparatus. The various components must associate in a defined order for the formation of a transcription-competent complex, from which a low level of transcription is possible. An increase in the basal transcriptional level requires the effect of specific transcriptional activators, which bind cognate DNA sequences at a variable distance from the promoter. The transcriptional activators themselves require the aid of further protein factors, known as coactivators (see 1.4.3.2), in order to attain full stimulatory activity. 

In contrast to the procaryotes, where the er70-holoenzyme of the RNA polymerase can initiate transcription without the aid of accessory factors, the eucaryotic RNA polymerase requires the help of numerous proteins to begin transcription. These proteins are termed basal or general initiation factors oftranscription. Together with RNA polymerase... 

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