Chemical and Synthetic Biology Approaches to Understand Cellular Functions - Part C
Specificaties
Gebonden, blz.
|
Engels
Elsevier Science |
e druk, 2020
ISBN13: 9780128191286
Rubricering
Onderdeel van serie
Methods in Enzymology
Verwachte levertijd ongeveer 8 werkdagen
Samenvatting
Chemical and Synthetic Biology Approaches to Understand Cellular Functions - Part C, Volume 633, the latest release in the Methods in Enzymology series, continues the legacy of this premier serial. This release includes sections on Next generation probes for molecular imaging in cells, Competitive binding assay for biotin and biotin derivatives, based on avidin and biotin-4-fluorescein, Converting avidin to bind ligands other than biotin, especially steroids, Chemoenzymatic Labeling Strategy, Engineered Siderophores, Small molecules to inhibit bacterial population behavior, NMR tube bioreactor, Small molecule controlled RAS activation system, Small molecule regulated Cas9, the Design and application of synthetic receptors, and much more.
Specificaties
ISBN13:9780128191286
Taal:Engels
Bindwijze:Gebonden
Uitgever:Elsevier Science
Serie:Methods in Enzymology
Inhoudsopgave
<p>1. Competitive binding assay for biotin and biotin derivatives, based on avidin and biotin-4-fluorescein<br>Elke Oberbichler, Maria Wiesauer, Eva Schlögl, Jessica Stangl, Felix Faschinger, Günther Knör, Hermann J. Gruber and Vesa P. Hytönen<br>2. (Strept)avidin as a template for ligands other than biotin: An overview<br>Vesa P. Hytönen<br>3. Engineering siderophores<br>Sina Rütschlin and Thomas Böttcher<br>4. Competitive profiling for enzyme inhibitors using chemical probes<br>Michaela Prothiwa and Thomas Böttcher<br>5. The NMR tube bioreactor<br>Alexandra V. Chatzikonstantinou, Antonis Tsiailanis, Ioannis P. Gerothanassis, Haralambos Stamatis, Enrico Ravera, Marco Fragai, Claudio Luchinat, Giacomo Parigi and Andreas G. Tzakos<br>6. A chemically-controlled system for activating RAS GTPases<br>Emily M. Dieter and Dustin J. Maly<br>7. Temporal and rheostatic control of genome editing with a chemically-inducible Cas9<br>Cindy T. Wei, Dustin J. Maly and Douglas M. Fowler<br>8. Synthetic receptors to understand and control cellular functions<br>Hung-Ju Chang and Jerome Bonnet<br>9. A suite of bioassays to evaluate CREB inhibitors<br>Bingbing X. Li and Xiangshu Xiao<br>10. Identification of lamins as the molecular targets of LBL1 using a clickable photoaffinity probe<br>Xiangshu Xiao and Bingbing X. Li<br>11. REX technologies for profiling and decoding the electrophile signaling axes mediated by Rosetta Stone proteins<br>Marcus J. C. Long, Daniel A. Urul and Yimon Aye<br>12. Building artificial genetic circuits to understand protein function<br>Louis H. Scott, James C. Mathews, Aleksandra Filipovska and Oliver Rackham<br>13. Methods for studying human sirtuins with activity-based chemical probes<br>Song Zheng, Jessica Wohlfahrt, Ian Cohen and Yana Cen<br>14. Site-directed labeling of β-arrestin with monobromobimane for measuring their interaction with G protein-coupled receptors<br>Ashish Srivastava, Mithu Baidya, Hemlata Dwivedi-Agnihotri and Arun K. Shukla<br>15. Reversible biotinylation of purified proteins for measuring protein-protein interactions<br>Hemlata Dwivedi-Agnihotri, Ashish Srivastava and Arun K. Shukla</p>