Multiplexed protein-DNA crosslinking: scrunching in transcription start site selection
In bacterial transcription initiation, RNA polymerase (RNAP) selects a transcription start site (TSS) at variable distances downstream of core promoter elements. Using next-generation sequencing and unnatural-amino-acid-mediated protein-DNA crosslinking, we have determined, for a library of 4 10 pro...
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| Veröffentlicht in: | Science (American Association for the Advancement of Science) 2016-03, Vol.351 (6277), p.1090-1093 |
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| container_title | Science (American Association for the Advancement of Science) |
| container_volume | 351 |
| creator | Winkelman, Jared T. Vvedenskaya, Irina O. Zhang, Yuanchao Zhang, Yu Bird, Jeremy G. Taylor, Deanne M. Gourse, Richard L. Ebright, Richard H. Nickels, Bryce E. |
| description | In bacterial transcription initiation, RNA polymerase (RNAP) selects a
transcription start site (TSS) at variable distances downstream of core promoter
elements. Using next-generation sequencing and unnatural-amino-acid-mediated
protein-DNA crosslinking, we have determined, for a library of 4
10
promoter sequences, the TSS, the RNAP leading-edge position, and the RNAP
trailing-edge position. We find that a promoter element upstream of the TSS, the
“discriminator,” participates in TSS selection, and that, as the
TSS changes, the RNAP leading-edge position changes, but the RNAP trailing-edge
position does not change. Changes in the RNAP leading-edge position but not the
RNAP trailing-edge position are a defining hallmark of the “DNA
scrunching” that occurs concurrent with RNA synthesis in initial
transcription. We propose that TSS selection involves DNA scrunching prior to
RNA synthesis. |
| doi_str_mv | 10.1126/science.aad6881 |
| format | Article |
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transcription start site (TSS) at variable distances downstream of core promoter
elements. Using next-generation sequencing and unnatural-amino-acid-mediated
protein-DNA crosslinking, we have determined, for a library of 4
10
promoter sequences, the TSS, the RNAP leading-edge position, and the RNAP
trailing-edge position. We find that a promoter element upstream of the TSS, the
“discriminator,” participates in TSS selection, and that, as the
TSS changes, the RNAP leading-edge position changes, but the RNAP trailing-edge
position does not change. Changes in the RNAP leading-edge position but not the
RNAP trailing-edge position are a defining hallmark of the “DNA
scrunching” that occurs concurrent with RNA synthesis in initial
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transcription start site (TSS) at variable distances downstream of core promoter
elements. Using next-generation sequencing and unnatural-amino-acid-mediated
protein-DNA crosslinking, we have determined, for a library of 4
10
promoter sequences, the TSS, the RNAP leading-edge position, and the RNAP
trailing-edge position. We find that a promoter element upstream of the TSS, the
“discriminator,” participates in TSS selection, and that, as the
TSS changes, the RNAP leading-edge position changes, but the RNAP trailing-edge
position does not change. Changes in the RNAP leading-edge position but not the
RNAP trailing-edge position are a defining hallmark of the “DNA
scrunching” that occurs concurrent with RNA synthesis in initial
transcription. We propose that TSS selection involves DNA scrunching prior to
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transcription start site (TSS) at variable distances downstream of core promoter
elements. Using next-generation sequencing and unnatural-amino-acid-mediated
protein-DNA crosslinking, we have determined, for a library of 4
10
promoter sequences, the TSS, the RNAP leading-edge position, and the RNAP
trailing-edge position. We find that a promoter element upstream of the TSS, the
“discriminator,” participates in TSS selection, and that, as the
TSS changes, the RNAP leading-edge position changes, but the RNAP trailing-edge
position does not change. Changes in the RNAP leading-edge position but not the
RNAP trailing-edge position are a defining hallmark of the “DNA
scrunching” that occurs concurrent with RNA synthesis in initial
transcription. We propose that TSS selection involves DNA scrunching prior to
RNA synthesis.</abstract><pmid>26941320</pmid><doi>10.1126/science.aad6881</doi></addata></record> |
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| ispartof | Science (American Association for the Advancement of Science), 2016-03, Vol.351 (6277), p.1090-1093 |
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| language | eng |
| recordid | cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_4797950 |
| source | American Association for the Advancement of Science; Jstor Complete Legacy |
| title | Multiplexed protein-DNA crosslinking: scrunching in transcription start site selection |
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