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Biophysical approaches to translational control of gene expression Jonathan D. Dinman

Biophysical approaches to translational control of gene expression By Jonathan D. Dinman

Biophysical approaches to translational control of gene expression by Jonathan D. Dinman

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Summary

This book provides a premier resource on understanding the ribosome's essential nature and how it interacts with other proteins and nucleic acids to control protein synthesis.

Biophysical approaches to translational control of gene expression Summary

Biophysical approaches to translational control of gene expression by Jonathan D. Dinman

This book provides a premier resource on understanding the ribosome's essential nature and how it interacts with other proteins and nucleic acids to control protein synthesis. As one of the central foundations in our understanding of the biology at the molecular level, this topic appeals to a wide audience, from bench researcher to clinician. With the advent of atomic scale structures, methods to visualize and separate individual molecules, and the computational power to model the complex interactions of over a million atoms at once, our understanding of how gene expression is controlled at the level of protein translation is now deeply ensconced in the biophysical realm.

Table of Contents

1. X-ray analysis of prokaryotic and eukaryotic ribosomes.
Lasse B. Jenner, Adam Ben-Shem, Natalia Demeshkina, Marat Yusupov*, Gulnara Yusupova.

2. A passage through the ribosome by Cryo-EM.
Partha P. Datta and Ananya Chatterjee

3. Molecular dynamics simulations of the ribosome.
Karissa Y. Sanbonmatsu, Scott C. Blanchard and Paul C. Whitford.

4. Structural analyses of the ribosome by chemical modification methods.
Jonathan A. Leshin, Arturas Meskauskas, and Jonathan D. Dinman.

5. Methods for studying the interactions of translation factors with the ribosome.
Assen Marintchev

6. Riboproteomic approaches to understanding IRES elements.
Encarnacion Martinez-Salas, David Pineiro and Noemi Fernandez.

7. Rapid kinetic analysis of protein synthesis.
Marina V. Rodnina and Wolfgang Wintermeyer.

8. Investigating RNAs Involved in Translational Control by NMR and SAXS.
Kathryn D. Mouzakis, Jordan E. Burke and Samuel E. Butcher.

9. Analyses of RNA-ligand interactions by fluorescence anisotropy.
Aparna Kishor, Gary Brewer, Gerald M. Wilson

10. Approaches for the Identification and Characterization of RNA-Protein Interactions.
Saiprasad Palusa and Jeffrey Wilusz.

11. A multidisciplinary approach to RNA Localization.
Russell S. Hamilton, Graeme Ball and Ilan Davis.

12. Virtual Screening for RNA-interacting Small Molecules.
Hyun-Ju Park and So-Jung Park.

13. The 'fifth' RNA nucleotide: a role for ribosomal RNA pseudouridylation in control of gene expression at the translational level.
Mary McMahon, Cristian Bellodi, and Davide Ruggero.

14. Translational Control of Synaptic Plasticity and Memory.
Arkady Khoutorsky, Christos Gkogkas and Nahum Sonenberg.

Additional information

NLS9781489987099
9781489987099
1489987096
Biophysical approaches to translational control of gene expression by Jonathan D. Dinman
Jonathan D. Dinman
Biophysics for the Life Sciences
New
Paperback
Springer-Verlag New York Inc.
2014-10-15
320
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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