RNA Polymerases as Molecular Motors
Herausgeber: Buc, Henri; Strick, Terence
RNA Polymerases as Molecular Motors
Herausgeber: Buc, Henri; Strick, Terence
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This book, written by expert scientists in the field, analyses how diverse fields of scientific research interact on a specific example - RNA polymerases.
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This book, written by expert scientists in the field, analyses how diverse fields of scientific research interact on a specific example - RNA polymerases.
Produktdetails
- Produktdetails
- RSC Biomolecular Sciences
- Verlag: Royal Society of Chemistry
- Seitenzahl: 331
- Erscheinungstermin: 10. März 2009
- Englisch
- Abmessung: 238mm x 162mm x 24mm
- Gewicht: 670g
- ISBN-13: 9780854041343
- ISBN-10: 0854041346
- Artikelnr.: 25542917
- RSC Biomolecular Sciences
- Verlag: Royal Society of Chemistry
- Seitenzahl: 331
- Erscheinungstermin: 10. März 2009
- Englisch
- Abmessung: 238mm x 162mm x 24mm
- Gewicht: 670g
- ISBN-13: 9780854041343
- ISBN-10: 0854041346
- Artikelnr.: 25542917
Professor Henri C Buc, Institut Pasteur, Paris, France has a special interest in the enzymology of nucleic acid polymerases. Terence R Strick, Centre National de la Recherche Scientifique, Paris, France has a special interest in single-molecule enzymology.
Chapter 1: Where it all Begins: An Overview of Promoter Recognition and
Open Complex Formation; Chapter 2: Opening the DNA at the Promoter; The
Energetic Challenge; Chapter 3: Intrinsic In Vivo Modulators: Negative
Supercoiling and the Constituents of the Bacterial Nucleoid; Chapter 4:
Transcription by RNA Polymerases: From Initiation to Elongation,
Translocation and Strand Separation; Chapter 5: Single-molecule FRET
Analysis of the Path from Transcription Initiation to Elongation; Chapter
6: Real-time Detection of DNA Unwinding by Escherichia coli RNAP: From
Transcription Initiation to Termination; Part II: Transcription Elongation
and Termination, Interlude, The Engine and the Brake; Chapter 7: Substrate
Loading, Nucleotide Addition, and Translocation by RNA Polymerase; Chapter
8: Regulation of RNA Polymerase through its Active Center; Chapter 9:
Kinetic Modeling of Transcription Elongation; Chapter 10: Mechanics of
Transcription Termination; Conclusion: Past, Present, and Future of
Single-molecule Studies of Transcription
Open Complex Formation; Chapter 2: Opening the DNA at the Promoter; The
Energetic Challenge; Chapter 3: Intrinsic In Vivo Modulators: Negative
Supercoiling and the Constituents of the Bacterial Nucleoid; Chapter 4:
Transcription by RNA Polymerases: From Initiation to Elongation,
Translocation and Strand Separation; Chapter 5: Single-molecule FRET
Analysis of the Path from Transcription Initiation to Elongation; Chapter
6: Real-time Detection of DNA Unwinding by Escherichia coli RNAP: From
Transcription Initiation to Termination; Part II: Transcription Elongation
and Termination, Interlude, The Engine and the Brake; Chapter 7: Substrate
Loading, Nucleotide Addition, and Translocation by RNA Polymerase; Chapter
8: Regulation of RNA Polymerase through its Active Center; Chapter 9:
Kinetic Modeling of Transcription Elongation; Chapter 10: Mechanics of
Transcription Termination; Conclusion: Past, Present, and Future of
Single-molecule Studies of Transcription
Chapter 1: Where it all Begins: An Overview of Promoter Recognition and
Open Complex Formation; Chapter 2: Opening the DNA at the Promoter; The
Energetic Challenge; Chapter 3: Intrinsic In Vivo Modulators: Negative
Supercoiling and the Constituents of the Bacterial Nucleoid; Chapter 4:
Transcription by RNA Polymerases: From Initiation to Elongation,
Translocation and Strand Separation; Chapter 5: Single-molecule FRET
Analysis of the Path from Transcription Initiation to Elongation; Chapter
6: Real-time Detection of DNA Unwinding by Escherichia coli RNAP: From
Transcription Initiation to Termination; Part II: Transcription Elongation
and Termination, Interlude, The Engine and the Brake; Chapter 7: Substrate
Loading, Nucleotide Addition, and Translocation by RNA Polymerase; Chapter
8: Regulation of RNA Polymerase through its Active Center; Chapter 9:
Kinetic Modeling of Transcription Elongation; Chapter 10: Mechanics of
Transcription Termination; Conclusion: Past, Present, and Future of
Single-molecule Studies of Transcription
Open Complex Formation; Chapter 2: Opening the DNA at the Promoter; The
Energetic Challenge; Chapter 3: Intrinsic In Vivo Modulators: Negative
Supercoiling and the Constituents of the Bacterial Nucleoid; Chapter 4:
Transcription by RNA Polymerases: From Initiation to Elongation,
Translocation and Strand Separation; Chapter 5: Single-molecule FRET
Analysis of the Path from Transcription Initiation to Elongation; Chapter
6: Real-time Detection of DNA Unwinding by Escherichia coli RNAP: From
Transcription Initiation to Termination; Part II: Transcription Elongation
and Termination, Interlude, The Engine and the Brake; Chapter 7: Substrate
Loading, Nucleotide Addition, and Translocation by RNA Polymerase; Chapter
8: Regulation of RNA Polymerase through its Active Center; Chapter 9:
Kinetic Modeling of Transcription Elongation; Chapter 10: Mechanics of
Transcription Termination; Conclusion: Past, Present, and Future of
Single-molecule Studies of Transcription