TY - JOUR
T1 - Opening and closing of the bacterial RNA polymerase clamp
AU - Chakraborty, Anirban
AU - Wang, Dongye
AU - Ebright, Yon W.
AU - Korlann, You
AU - Kortkhonjia, Ekaterine
AU - Kim, Taiho
AU - Chowdhury, Saikat
AU - Wigneshweraraj, Sivaramesh
AU - Irschik, Herbert
AU - Jansen, Rolf
AU - Nixon, B. Tracy
AU - Knight, Jennifer
AU - Weiss, Shimon
AU - Ebright, Richard H.
PY - 2012/8/3
Y1 - 2012/8/3
N2 - Using single-molecule fluorescence resonance energy transfer, we have defined bacterial RNA polymerase (RNAP) clamp conformation at each step in transcription initiation and elongation. We find that the clamp predominantly is open in free RNAP and early intermediates in transcription initiation but closes upon formation of a catalytically competent transcription initiation complex and remains closed during initial transcription and transcription elongation. We show that four RNAP inhibitors interfere with clamp opening. We propose that clamp opening allows DNA to be loaded into and unwound in the RNAP active-center cleft, that DNA loading and unwinding trigger clamp closure, and that clamp closure accounts for the high stability of initiation complexes and the high stability and processivity of elongation complexes.
AB - Using single-molecule fluorescence resonance energy transfer, we have defined bacterial RNA polymerase (RNAP) clamp conformation at each step in transcription initiation and elongation. We find that the clamp predominantly is open in free RNAP and early intermediates in transcription initiation but closes upon formation of a catalytically competent transcription initiation complex and remains closed during initial transcription and transcription elongation. We show that four RNAP inhibitors interfere with clamp opening. We propose that clamp opening allows DNA to be loaded into and unwound in the RNAP active-center cleft, that DNA loading and unwinding trigger clamp closure, and that clamp closure accounts for the high stability of initiation complexes and the high stability and processivity of elongation complexes.
UR - http://www.scopus.com/inward/record.url?scp=84864770299&partnerID=8YFLogxK
U2 - 10.1126/science.1218716
DO - 10.1126/science.1218716
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C2 - 22859489
AN - SCOPUS:84864770299
SN - 0036-8075
VL - 337
SP - 591
EP - 595
JO - Science
JF - Science
IS - 6094
ER -