Wrapping of DNA around the E.coli RNA polymerase open promoter complex.
TLDR
The structural analysis of the open promoter complexes revealed that two‐thirds of the DNA wrapped around the RNAP is part of a region upstream of the transcription start site, whereas the remaining one‐third ispart of the downstream region.Abstract:
High-resolution atomic force microscopy (AFM) and biochemical methods were used to analyze the structure of Escherichia coli RNA polymerase.sigma(70) (RNAP) open promoter complex (RP(o)). A detailed analysis of a large number of molecules shows that the DNA contour length of RP(o) is reduced by approximately 30 nm (approximately 90 bp) relative to the free DNA. The DNA bend angle measured with different methods varied from 55 to 88 degrees. The contour length reduction and the DNA bend angle were much less in inactive RNAP-DNA complexes. These results, together with previously published observations, strongly support the notion that during transcription initiation, the promoter DNA wraps nearly 300 degrees around the polymerase. This amount of DNA bending requires an energy of 60 kJ/mol. The structural analysis of the open promoter complexes revealed that two-thirds of the DNA wrapped around the RNAP is part of a region upstream of the transcription start site, whereas the remaining one-third is part of the downstream region. Based on these data, a model of the sigma(70).RP(o) conformation is proposed.read more
Citations
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CRISPR Immunity Relies on the Consecutive Binding and Degradation of Negatively Supercoiled Invader DNA by Cascade and Cas3
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Huntingtin spheroids and protofibrils as precursors in polyglutamine fibrilization.
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DNA supercoiling - a global transcriptional regulator for enterobacterial growth?
TL;DR: It is argued that regulation of DNA supercoiling provides a coherent explanation for the main modes of transcriptional control — stringent control, growth-rate control and growth-phase control — during the normal growth of Escherichia coli.
References
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Journal ArticleDOI
Compilation and analysis of Escherichia coli promoter DNA sequences.
TL;DR: A consensus promoter sequence based on homologies among 112 well-defined promoters was determined that was in substantial agreement with previous compilations.
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Three dimensional structure memory
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A third recognition element in bacterial promoters: DNA binding by the alpha subunit of RNA polymerase
Wilma Ross,Khoosheh K. Gosink,Julia Salomon,Kazuhiko Igarashi,Chao Zou,Akira Ishihama,Konstantin Severinov,Richard L. Gourse +7 more
TL;DR: Results suggest that UP elements comprise a third promoter recognition region (in addition to the -10, -35 recognition hexamers, which interact with the sigma subunit) and may account for the presence of (A+T)-rich DNA upstream of many prokaryotic promoters.
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Scanning force microscopy of DNA deposited onto mica: equilibration versus kinetic trapping studied by statistical polymer chain analysis.
TL;DR: Under equilibration conditions, the present study indicates that the SFM can be used to determine the persistence length of DNA molecules to a high degree of precision.