Intrinsically disordered proteins /
Άλλοι συγγραφείς: | |
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Μορφή: | Ηλ. βιβλίο |
Γλώσσα: | English |
Έκδοση: |
Cambridge, MA :
Academic Press is an imprint of Elsevier,
2018.
|
Έκδοση: | First edition. |
Σειρά: | Methods in enzymology ;
v. 611. |
Θέματα: | |
Διαθέσιμο Online: | Full Text via HEAL-Link |
Πίνακας περιεχομένων:
- Phase separation of intrinsically disordered proteins / Ammon E. Posey, Alex S. Holehouse, and Rohit V. Pappu
- Methods and strategies to quantify phase separation of disordered proteins / Alfredo Vidal Ceballos, Charles J. McDonald, and Shana Elbaum-Garfinkle
- Visualization and quantitation of phase-separated droplet formation by human HP1[alpha] / Madeline M. Keenen, Adam G. Larson, and Geeta J. Narlikar
- Probing RNA structure in liquid-liquid phase separation using SHAPE-MaP / Erin M. Langdon and Amy S. Gladfelter
- The use of ¹³C direct-detect NMR to characterize flexible and disordered proteins / Erik C. Cook, Grace A. Usher, and Scott A. Showalter
- Using NMR chemical shifts to determine residue-specific secondary structure populations for intrinsically disordered proteins / Wade M. Borcherds and Gary W. Daughdrill
- Experimental characterization of fuzzy protein assemblies : interactions of paramyxoviral NTAIL domains with their functional partners / Francesca Troilo, Christophe Bignon, Stefano Gianni, Monika Fuxreiter, and Sonia Longhi
- Characterization of dynamic IDP complexes by NMR spectroscopy / Andreas Prestel, Katrine Bugge, Lasse Staby, Ruth Hendus-Altenburger, and Birthe B. Kragelund
- Spectroscopic characterization of structure-function relationships in the intrinsically disordered protein complexin / David Snead and David Eliezer
- Accurate transfer efficiencies, distance distributions, and ensembles of unfolded and intrinsically disordered proteins from single-molecule FRET / Erik D. Holmstrom, Andrea Holla, Wenwei Zheng, Daniel Nettels, Robert B. Best, and Benjamin Schuler
- Probing differential binding mechanisms of phenylalanine-glycine-rich nucleoporins by single-molecule FRET / Piau Siong Tan and Edward A. Lemke
- Fluorescence depolarization kinetics to study the conformational preference, structural plasticity, binding, and assembly of intrinsically disordered proteins / Anupa Majumdar and Samrat Mukhopadhyay
- Building, characterization, and applications of cuvette-FCS in denaturant-induced expansion of globular and disordered proteins / Timir Baran Sil, Bankanidhi Sahoo, and Kanchan Garai
- Stopped-flow kinetic techniques for studying binding reactions of intrinsically disordered proteins / Michael D. Crabtree and Sarah L. Shammas
- The use of mass spectrometry to examine IDPs : unique insights and caveats / Dale Stuchfield, Aidan P. France, Lukasz G. Migas, Anja Thalhammer, Anne Bremer, Bruno Belina, and Perdita E. Barran
- Characterizing time-of-day conformational changes in the intrinsically disordered proteins of the circadian clock / Jacqueline F. Pelham, Alexander E. Mosier, and Jennifer M. Hurley
- Assessing allostery in intrinsically disordered proteins with ensemble allosteric model / Jing Li and Vincent J. Hilser
- A tethered vesicle assay for high-throughput quantification of membrane fission / Wilton T. Snead and Jeanne C. Stachowiak
- Generating novel materials using the intrinsically disordered protein Ubx / Gabriela Geraldo Mendes, Rebecca M. Booth, Donna L. Pattison, Adrian J. Alvarez, and Sarah E. Bondos
- Challenges in the structural-functional characterization of multidomain, partially disordered proteins CBP and p300 : preparing native proteins and developing nanobody tools / Angela Bekesi, Sara Abdellaoui, Natalie Holroyd, Wouter Van Delm, Els Pardon, Jarne Pauwels, Kris Gevaert, Jan Steyaert, Stefaan Derveaux, Antoni Borysik, and Peter Tompa
- Characterization of the binding of small molecules to intrinsically disordered proteins / Veselin S. Dobrev, Lisette M. Fred, Kaitlyn P. Gerhart, and Steven J. Metallo
- Targeting the intrinsically disordered proteome using small-molecule ligands / Sławomir Wójcik, Melissa Birol, Elizabeth Rhoades, Andrew D. Miranker, and Zachary A. Levine.