RNA Polymerases as Molecular Motors
The cell can be viewed as a 'collection of protein machines' and understanding these molecular machines requires sophisticated cooperation between cell biologists, geneticists, enzymologists, crystallographers, chemists and physicists. To observe these machines in action, researchers have developed entirely new methodologies for the detection and the nanomanipulation of single molecules. This book, written by expert scientists in the field, analyses how these diverse fields of research interact on a specific example - RNA polymerase. The book concentrates on RNA polymerases because they play a central role among all the other machines operating in the cell and are the target of a wide range of regulatory mechanisms. They have also been the subject of spectacular advances in their structural understanding in recent years, as testified by the attribution of the Nobel prize in chemistry in 2006 to Roger Kornberg. The book focuses on two aspects of the transcription cycle that have been more intensively studied thanks to this increased scientific cooperation - the recognition of the promoter by the enzyme, and the achievement of consecutive translocation steps during elongation of the RNA product. Each of these two topics is introduced by an overview, and is then presented by worldwide experts in the field, taking the viewpoint of their speciality. The overview chapters focus on the mechanism-structure interface and the structure-machine interface while the individual chapters within each section concentrate more specifically on particular processes-kinetic analysis, single-molecule spectroscopy, and termination of transcription, amongst others. Specific attention has been paid to the newcomers in the field, with careful descriptions of new emerging techniques and the constitution of an atlas of three-dimensional pictures of the enzymes involved. For more than thirty years, the study of RNA polymerases has benefited from intense cooperation between the scientific partners involved in the various fields listed above. It is hoped that a collection of essays from outstanding scientists on this subject will catalyse the convergence of scientific efforts in this field, as well as contribute to better teaching at advanced levels in Universities.
RNA Polymerases as Molecular Motors, The Royal Society of Chemistry, 2009.
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Table of contents
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There and Back Again: A Structural Atlas of RNAPp1-10BySeth DarstSeth DarstRockefeller University1230 York Avenue, New YorkNY 10021USASearch for other works by this author on:
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Where it all Begins: An Overview of Promoter Recognition and Open Complex Formationp13-37ByStephen Busby;Stephen BusbySchool of Biosciences, University of BirminghamBirmingham B15 2TTUnited KingdomSearch for other works by this author on:Annie Kolb;Annie KolbInstitut Pasteur, Molecular Genetics Unit and CNRS URA 217225 rue du Dr. Roux75724Paris Cedex 15FranceSearch for other works by this author on:Henri BucHenri BucCIS Institut Pasteur75724Paris Cedex 15FranceSearch for other works by this author on:
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Chapter 2: Opening the DNA at the Promoter; The Energetic Challengep38-68ByBianca SclaviBianca SclaviLBPAUMR 8113 du CNRSENS Cachan61 Avenue du Président Wilson94235CachanFranceSearch for other works by this author on:
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Chapter 3: Intrinsic In vivo Modulators: Negative Supercoiling and the Constituents of the Bacterial Nucleoidp69-95ByGeorgi Muskhelishvili;Georgi MuskhelishviliJacobs UniversityCampus Ring 1D-28759 BremenGermanySearch for other works by this author on:Andrew TraversAndrew TraversMRC Laboratory of Molecular BiologyHills RoadCambridge CB2 0QHUKSearch for other works by this author on:
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Chapter 4: Transcription by RNA Polymerases: From Initiation to Elongation, Translocation and Strand Separationp96-114ByThomas A SteitzThomas A SteitzDepartments of Molecular Biophysics & Biochemistry, and Chemistry, Howard Hughes Medical Institute, Yale UniversityNew HavenCT 06520-8114USASearch for other works by this author on:
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Chapter 5: Single-molecule FRET Analysis of the Path from Transcription Initiation to Elongationp115-156ByAchillefs N. Kapanidis;Achillefs N. KapanidisDepartment of Physics and IRC in Bionanotechnology, Clarendon Laboratory, University of OxfordParks RoadOxfordOX1 3PUUnited KingdomSearch for other works by this author on:Shimon WeissShimon WeissDepartment of Chemistry and Biochemistry, Department of Physiology, and the California NanoSystems InstituteUniversity of California at Los AngelesCA 90095USASearch for other works by this author on:
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Chapter 6: Real-time Detection of DNA Unwinding by Escherichia coli RNAP: From Transcription Initiation to Terminationp157-190ByTerence R. Strick;Terence R. StrickCentre National de la Recherche Scientifique, Institut Jacques Monod, University of Paris Diderot – Paris 7ParisFranceSearch for other works by this author on:Andrey RevyakinAndrey RevyakinUniversity of California Berkeley431 Stanley HallBerkeleyCA 94720USASearch for other works by this author on:
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Interlude: The Engine and the Brakep191-205ByTerence StrickTerence StrickCentre National de la Recherche Scientifique, Institut Jacques Monod and University of Paris Diderot-Paris 7ParisFranceSearch for other works by this author on:
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Chapter 7: Substrate Loading, Nucleotide Addition, and Translocation by RNA Polymerasep206-235ByJinwei Zhang;Jinwei ZhangDepartment of Biomolecular Chemistry, University of Wisconsin-Madison1550 Linden DriveMadisonWI 53706USASearch for other works by this author on:Robert LandickRobert LandickDepartments of Biochemistry and of Bacteriology, University of Wisconsin-Madison1550 Linden DriveMadisonWI 53706USASearch for other works by this author on:
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Chapter 8: Regulation of RNA Polymerase through its Active Centerp236-262BySergei Nechaev;Sergei NechaevLaboratory of Molecular CarcinogenesisNIEHS/NIHResearch Triangle ParkNC27709USASearch for other works by this author on:Nikolay Zenkin;Nikolay ZenkinInstitute for Cell and Molecular Biosciences, Newcastle UniversityNewcastle upon TyneNE2 4HHUKSearch for other works by this author on:Konstantin SeverinovKonstantin SeverinovWaksman Institute, Department of Molecular Biology and Biochemistry, Rutgers, The State UniversityPiscatawayNJ 08854USAInstitute of Molecular GeneticsRussian Academy of SciencesMoscow 123182RussiaSearch for other works by this author on:
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Chapter 9: Kinetic Modeling of Transcription Elongationp263-280ByLu Bai;Lu BaiDepartment of Physics, Cornell UniversityLaboratory of Atomic and Solid State PhysicsIthacaNY 14853USACurrent address: The Rockefeller UniversityNew YorkNY 10065USASearch for other works by this author on:Alla Shundrovsky;Alla ShundrovskyDepartment of Physics, Cornell UniversityLaboratory of Atomic and Solid State PhysicsIthacaNY 14853USACurrent address: Department of Mechanical Engineering, Yale UniversityNew HavenCT 06511USASearch for other works by this author on:Michelle D. WangMichelle D. WangDepartment of Physics, Cornell UniversityLaboratory of Atomic and Solid State PhysicsIthacaNY 14853USASearch for other works by this author on:
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Chapter 10: Mechanics of Transcription Terminationp281-301ByEvgeny NudlerEvgeny NudlerDepartment of Biochemistry, New York University School of MedicineNew YorkNY10016USASearch for other works by this author on:
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Conclusion: Past, Present, and Future of Single-molecule Studies of Transcriptionp302-314ByCarlos Bustamante;Carlos BustamanteDepartment of Physics, University of CaliforniaBerkeleyCA 94720-7300USADepartments of Chemistry, Molecular and Cell Biology, Howard Hughes Medical Institute, University of CaliforniaBerkeleyCA 94720-3220USASearch for other works by this author on:Jeffrey R. MoffittJeffrey R. MoffittDepartment of Physics, University of CaliforniaBerkeleyCA 94720-7300USASearch for other works by this author on:
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