Feig | Calorimetry | Buch | 978-0-12-802906-0 | sack.de

Buch, Englisch, Band 567, 530 Seiten, Format (B × H): 152 mm x 231 mm, Gewicht: 1043 g

Reihe: Methods in Enzymology

Feig

Calorimetry


Erscheinungsjahr 2016
ISBN: 978-0-12-802906-0
Verlag: ACADEMIC PR INC

Buch, Englisch, Band 567, 530 Seiten, Format (B × H): 152 mm x 231 mm, Gewicht: 1043 g

Reihe: Methods in Enzymology

ISBN: 978-0-12-802906-0
Verlag: ACADEMIC PR INC


Calorimetry, the latest volume in the Methods in Enzymology series continues the legacy of this premier serial with quality chapters authored by leaders in the field. Calorimetry is a highly technical experiment and it is easy for new practioners to get fooled into interpreting artifacts as real experimental results. This volume will guide readers to get the most out of their precious biological samples and includes topics on specific protocols for the types of studies being conducted as well as tips to improve the data collection. Most importantly, the chapters will also help to identify pitfalls that need to be avoided to ensure that the highest quality results are obtained.

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Weitere Infos & Material


1. Isothermal Titration Calorimetry Measurements of Metal Ions Binding to Proteins
Colette F. Quinn ,Margaret C. Carpenter, Molly L. Croteau and Dean E. Wilcox
2. Assessing Coupled Protein Folding and Binding through Temperature- Dependent Isothermal Titration Calorimetry
Debashish Sahu, Monique Bastidas, Chad W. Lawrence, William G. Noid,and Scott A. Showalter
3. Fragment-Based Screening for Enzyme Inhibitors Using Calorimetry
Michael I. Recht, Vicki Nienaber and Francisco E. Torres
4. Measuring Multivalent Binding Interactions by Isothermal Titration Calorimetry
Tarun K. Dam, Melanie L Talaga, Ni Fan and Curtis F. Brewer
5. Calorimetric and Spectroscopic Analysis of the Thermal Stability of Short Duplex DNA-Containing Sugar and Base-Modified Nucleotides
Kareem Fakhfakh, Curtis B. Hughesman, A. Louise Creagh, Vincent Kao and Charles Haynes
6. Calorimetric Quantification of Cyclodextrin-Mediated Detergent Extraction for Membrane-Protein Reconstitution
Martin Textor and Sandro Keller
7. Extending ITC to Kinetics with KinITC
Philippe Dumas, Eric Ennifar, Cyrielle Da Veiga, Guillaume Bec, William Palau, Carmelo Di Primo,Angel Piñeiro, Juan Sabin, Eva Muñoz and Javier Rial
8. Measuring the Kinetics of Molecular Association by Isothermal Titration Calorimetry

Kirk A. Vander Meulen, Scott Horowitz, Raymond C. Trievel, and Samuel E. Butcher
9. Isothermal Titration Calorimetry to Characterize Enzymatic Reactions
Luca Mazzei, Stefano Ciurli and Barbara Zambelli
10. Avoiding Buffer Interference in Itc Experiments: A Case Study from the Analysis of Entropy Driven Reactions of Glucose-6-Phosphate Dehydrogenase
M. Lucia Bianconi
11. ITC Methods for Assessing Buffer/Protein Interactions from the Perturbation of Steady-State Kinetics: A Reactivity Study of Homoprotocatechuate 2,3-Dioxygenase
Kate L. Henderson, Delta K. Boyles, Vu H. Le, Edwin A. Lewis and Joseph P.Emerson
12. Modern Analysis of Protein Folding by Differential Scanning Calorimetry
Beatriz Ibarra-Molero, Athi N. Naganathan, Jose M. Sanchez-Ruiz and Victor Muñoz
13. A Guide to Differential Scanning Calorimetry of Membrane and Soluble Proteins in Detergents
Zhengrong Yang and Christie G. Brouillette
14. Orthogonal Methods for Characterizing the Unfolding of Therapeutic Monoclonal Antibodies: Differential Scanning Calorimetry, Isothermal Chemical Denaturation and Intrinsic Fluorescence with Concomitant Static Light Scattering
Deniz B. Temel, Pavel Landsman and Mark L. Brader
15. IATC, DSC, and PPC Analysis of Reversible and Multi-State Structural Transition of Cytochrome c
Shun-ichi Kidokoro and Shigeyoshi Nakamura
16. The Complementarity of the Loop to the Stem in DNA Pseudoknots Gives Rise to Local TAT Base-Triplets
Calliste Reiling-Steffensmeier and Luis A. Marky
17. A High-Throughput Biological Calorimetry Core: Steps to Startup, Run, and Maintain a Multi-User Facility
Neela H. Yennawar, Julia A. Fecko, Scott A. Showalter and Philip C. Bevilacqua


Feig, Andrew
Prof. Andrew Feig joined the WSU faculty in the Department of Chemistry in 2006. He is a biochemist who oversees a laboratory that studies bacterial gene regulation by small non-coding RNAs and the biochemistry, chemical biology, and biophysics of Clostridium difficile toxins A & B. He has worked extensively on structural rearrangements of RNA and RNA protein interactions with an emphasis on the biochemistry and biophysics of those processes. He has a long-standing interested in heat capacity changes associated with these structural transitions and their impact on the regulation of biological processes.

Professor Feig is a 2002 Cottrell Scholar, was Recipient of the WSU Career Development Chair (08/09), the CLAS Teaching Award (2012) and the WSU President's Award for Excellence in Teaching (2013). In 2015 he was named PCSUM Michigan Distinguished Professor of the Year. Professor Feig earned his B.S. in Chemistry from Yale University (1990) and his Ph.D. in Chemistry from MIT (1995) working with Professor Stephen J. Lippard. He worked as a post-doctoral fellow at University of Colorado, Boulder (1995-1999) in the laboratory of Olke C. Uhlenbeck.



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