Structural basis for initiation of transcription from an RNA polymerase–promoter complex

Cheetham, G.M.T.; Jeruzalmi, David; Steitz, Thomas A.

doi:10.1038/19999

Cited by 298 publications

(393 citation statements)

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“…The specific complex formed by the T7 RNA-polymerase and its target sequence (a gene promoter) has been studied by crystallography [53] [54]. The first interaction will include, typically, direct hydrogen bonds to base pairs and Van der Waals interactions [55,15].…”

Section: Who Helps Who?mentioning

confidence: 99%

Protein–DNA Electrostatics

Barbi¹,

Paillusson²

2013

Dynamics of Proteins and Nucleic Acids

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Gene expression and regulation rely on an apparently finely tuned set of reactions between some proteins and DNA. Such DNA-binding proteins have to find specific sequences on very long DNA molecules and they mostly do so in absence of any active process. It has been rapidly recognized that to achieve this task these proteins should be efficient at both searching (i.e. sampling fast relevant parts of DNA) and finding (i.e. recognizing the specific site).A two-mode search and variants of it have been suggested since the 70s to explain either a fast search or an efficient recognition. Combining these two properties at a phenomenological level is however more difficult as they appear to have antagonist roles. To overcome this difficulty, one may simply need to drop the dichotomic view inherent to the two-mode search and look more thoroughly at the set of interactions between DNA-binding proteins and a given 1 arXiv:1311.7496v1 [physics.bio-ph] 29 Nov 2013 DNA segment either specific or non-specific. This chapter demonstrates that, in doing so in a very generic way, one may indeed find a potential reconciliation between a fast search and an efficient recognition. Although a lot remains to be done, this could be the time for a change of paradigm.

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Section: Who Helps Who?mentioning

confidence: 99%

Protein–DNA Electrostatics

Barbi¹,

Paillusson²

2013

Dynamics of Proteins and Nucleic Acids

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“…Loading of DNA within the active site accompanies 'open complex' formation (3,5,6). The initial phase of transcription is inefficient and error-prone yielding short transcripts of 8 to 11nt in length, termed 'abortive initiation' (8)(9)(10)(11)(12)(13)(14). Further structural rearrangements result in promoter escape and finally RNAP enters the elongation phase (15).…”

Section: Introductionmentioning

confidence: 99%

Promoter Independent Abortive Transcription Assays Unravel Functional Interactions Between TFIIB and RNA Polymerase

Wiesler

Werner

Weinzierl

2013

Methods in Molecular Biology

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Several co-crystals of the TFIIB-RNAP II interface exist suggesting the TFIIB linker region to penetrate the active centre, yet the understanding of the resulting protein-protein interactions and their impact on the transcription cycle has remained elusive. Promoter-independent abortive initiation assays exploit the intrinsic ability of RNAP enzymes to initiate transcription from nicked DNA templates and measuring the phosphodiester bond formation they catalyse. These assays can be used to measure the effect of transcription factors and mutations on the rate of the catalytic reaction. Notably, they have served to reveal and characterise a significant stimulation activity of TFIIB on RNAP that was previously unknown.

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“…The specificity loop is a phage RNAP-specific feature, which in the open promoter complex recognizes the doublestranded DNA 10-12 base pairs upstream of the transcription initiation start point. Strikingly, 2 amino acids within the 7-aa fragment that harbors the crosslink site are known to contact the promoter at positions Ϫ7, Ϫ10, and Ϫ11 and are critical in specific promoter recognition (16,17). Thus, it seems that during promoter clearance, the contacts between the specificity loop and the upstream-promoter DNA are broken, and new contacts with RNA and possibly DNA at the upstream edge of the transcription bubble are established.…”

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confidence: 99%

“…16). The proposed trajectory results in few clashes, is consistent with much of the biochemical and genetic data, and is not consistent with the RNA-exit pathway suggested by the structure of the T7 RNAP initiation complex (12).…”

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confidence: 99%

“…This critical position, where RNA is displaced from the hybrid, seems to contribute to elongation complex stability. By using a panel of chemical-mapping techniques in combination with RNAP mutants, the crosslink site was localized to within 7 T7 RNAP amino acids in the so-called specificity loop (16). The specificity loop is a phage RNAP-specific feature, which in the open promoter complex recognizes the doublestranded DNA 10-12 base pairs upstream of the transcription initiation start point.…”

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confidence: 99%

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