Molecular Machines in Biology
Herausgeber: Frank, Joachim
Molecular Machines in Biology
Herausgeber: Frank, Joachim
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Discusses molecular machines and new techniques that are being used to better understand the processes in the cell driven by them.
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Discusses molecular machines and new techniques that are being used to better understand the processes in the cell driven by them.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 288
- Erscheinungstermin: 2. März 2015
- Englisch
- Abmessung: 286mm x 221mm x 23mm
- Gewicht: 1341g
- ISBN-13: 9780521194280
- ISBN-10: 0521194288
- Artikelnr.: 33768846
- Verlag: Cambridge University Press
- Seitenzahl: 288
- Erscheinungstermin: 2. März 2015
- Englisch
- Abmessung: 286mm x 221mm x 23mm
- Gewicht: 1341g
- ISBN-13: 9780521194280
- ISBN-10: 0521194288
- Artikelnr.: 33768846
Introduction; 1. Single-molecule FRET: technique and applications to the
studies of molecular machines Xinghua Shi and Taekjip Ha; 2. Visualization
of molecular machines by cryo-electron microscopy Joachim Frank; 3.
Statistical mechanical treatment of molecular machines Debashish Chowdhury;
4. Investigation of molecular machines by normal mode analysis Karunesh
Arora and Charles L. Brooks, III; 5. Structure, function, and evolution of
archaeo-eukaryotic RNA polymerases - gatekeepers of the genome Finn Werner
and Dina Grohmann; 6. Single-molecule fluorescence resonance energy
transfer investigations of ribosome-catalyzed protein synthesis Daniel D.
MacDougall, Jingyi Fei and Ruben L. Gonzalez, Jr; 7. Structure and dynamics
of the ribosome as revealed by cryo-electron microscopy Xabier Agirrezabala
and Mikel Valle; 8. Viewing the mechanisms of translation through the
computational microscope James Gumbart, Eduard Schreiner, Leonardo G.
Trabuco, Kwok-Yan Chan and Klaus Schulten; 9. The ribosome as a Brownian
ratchet machine Alexander S. Spirin and Alexei V. Finkelstein; 10. The
GroEL/GroES chaperonin machine Arthur L. Horwich and Helen R. Saibil; 11.
ATP synthase - a paradigmatic molecular machine Thomas Meier, José
Faraldo-Gómez and Michael Börsch; 12. ATP-dependent proteases Sucharita
Bhattacharyya, Shameika R. Wilmington and Andreas Matouschek.
studies of molecular machines Xinghua Shi and Taekjip Ha; 2. Visualization
of molecular machines by cryo-electron microscopy Joachim Frank; 3.
Statistical mechanical treatment of molecular machines Debashish Chowdhury;
4. Investigation of molecular machines by normal mode analysis Karunesh
Arora and Charles L. Brooks, III; 5. Structure, function, and evolution of
archaeo-eukaryotic RNA polymerases - gatekeepers of the genome Finn Werner
and Dina Grohmann; 6. Single-molecule fluorescence resonance energy
transfer investigations of ribosome-catalyzed protein synthesis Daniel D.
MacDougall, Jingyi Fei and Ruben L. Gonzalez, Jr; 7. Structure and dynamics
of the ribosome as revealed by cryo-electron microscopy Xabier Agirrezabala
and Mikel Valle; 8. Viewing the mechanisms of translation through the
computational microscope James Gumbart, Eduard Schreiner, Leonardo G.
Trabuco, Kwok-Yan Chan and Klaus Schulten; 9. The ribosome as a Brownian
ratchet machine Alexander S. Spirin and Alexei V. Finkelstein; 10. The
GroEL/GroES chaperonin machine Arthur L. Horwich and Helen R. Saibil; 11.
ATP synthase - a paradigmatic molecular machine Thomas Meier, José
Faraldo-Gómez and Michael Börsch; 12. ATP-dependent proteases Sucharita
Bhattacharyya, Shameika R. Wilmington and Andreas Matouschek.
Introduction; 1. Single-molecule FRET: technique and applications to the
studies of molecular machines Xinghua Shi and Taekjip Ha; 2. Visualization
of molecular machines by cryo-electron microscopy Joachim Frank; 3.
Statistical mechanical treatment of molecular machines Debashish Chowdhury;
4. Investigation of molecular machines by normal mode analysis Karunesh
Arora and Charles L. Brooks, III; 5. Structure, function, and evolution of
archaeo-eukaryotic RNA polymerases - gatekeepers of the genome Finn Werner
and Dina Grohmann; 6. Single-molecule fluorescence resonance energy
transfer investigations of ribosome-catalyzed protein synthesis Daniel D.
MacDougall, Jingyi Fei and Ruben L. Gonzalez, Jr; 7. Structure and dynamics
of the ribosome as revealed by cryo-electron microscopy Xabier Agirrezabala
and Mikel Valle; 8. Viewing the mechanisms of translation through the
computational microscope James Gumbart, Eduard Schreiner, Leonardo G.
Trabuco, Kwok-Yan Chan and Klaus Schulten; 9. The ribosome as a Brownian
ratchet machine Alexander S. Spirin and Alexei V. Finkelstein; 10. The
GroEL/GroES chaperonin machine Arthur L. Horwich and Helen R. Saibil; 11.
ATP synthase - a paradigmatic molecular machine Thomas Meier, José
Faraldo-Gómez and Michael Börsch; 12. ATP-dependent proteases Sucharita
Bhattacharyya, Shameika R. Wilmington and Andreas Matouschek.
studies of molecular machines Xinghua Shi and Taekjip Ha; 2. Visualization
of molecular machines by cryo-electron microscopy Joachim Frank; 3.
Statistical mechanical treatment of molecular machines Debashish Chowdhury;
4. Investigation of molecular machines by normal mode analysis Karunesh
Arora and Charles L. Brooks, III; 5. Structure, function, and evolution of
archaeo-eukaryotic RNA polymerases - gatekeepers of the genome Finn Werner
and Dina Grohmann; 6. Single-molecule fluorescence resonance energy
transfer investigations of ribosome-catalyzed protein synthesis Daniel D.
MacDougall, Jingyi Fei and Ruben L. Gonzalez, Jr; 7. Structure and dynamics
of the ribosome as revealed by cryo-electron microscopy Xabier Agirrezabala
and Mikel Valle; 8. Viewing the mechanisms of translation through the
computational microscope James Gumbart, Eduard Schreiner, Leonardo G.
Trabuco, Kwok-Yan Chan and Klaus Schulten; 9. The ribosome as a Brownian
ratchet machine Alexander S. Spirin and Alexei V. Finkelstein; 10. The
GroEL/GroES chaperonin machine Arthur L. Horwich and Helen R. Saibil; 11.
ATP synthase - a paradigmatic molecular machine Thomas Meier, José
Faraldo-Gómez and Michael Börsch; 12. ATP-dependent proteases Sucharita
Bhattacharyya, Shameika R. Wilmington and Andreas Matouschek.