DNA Repair Enzymes: Structure, Biophysics, and Mechanism: Volume 592

DNA Repair Enzymes: Structure, Biophysics, and Mechanism: Volume 592

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DNA Repair Enzymes, Part B, Volume 592 is the latest volume in the Methods in Enzymology series and the first part of a thematic that focuses on DNA Repair Enzymes. Topics in this updated volume include MacroBac: New Technologies for Robust and Efficient Large-Scale Production of Recombinant Multiprotein Complexes, Production and Assay of Recombinant Multisubunit Chromatin Remodeling Complexes, Analysis of Functional Dynamics of Modular Multidomain Proteins by SAXS and NMR, the Use of Single-Cysteine Variants for Trapping Transient States in DNA Mismatch Repair, and Structural Studies of RNases H2 as an Example of Crystal Structure Determination of Protein-Nucleic Acid Complexes.
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Product details

  • Hardback | 512 pages
  • 152 x 229 x 33.02mm | 860g
  • Elsevier Science Publishing Co Inc
  • Academic Press Inc
  • San Diego, United States
  • English
  • 0128125152
  • 9780128125151
  • 1,503,636

About Brandt Eichman

Dr. Eichman is a Professor of Biological Sciences and Biochemistry at Vanderbilt University, where his laboratory investigates the structural mechanisms of protein machines involved in maintenance of genome integrity. Professor Eichman was initially trained as a synthetic organic chemist at the University of Mississippi (B.S., Chemistry, 1993). He received his Ph.D. in Biochemistry and Biophysics in 2000 from Oregon State University, where he used X-ray crystallography to study the effects of crosslinking agents on DNA structure and determined the landmark structure of the Holliday junction, the four-stranded DNA intermediate formed during genetic recombination. As an NIH postdoctoral fellow from 2000-2004 with Tom Ellenberger at Harvard Medical School, Eichman studied the structural enzymology of DNA repair and replication proteins. Current projects in the Eichman lab focus on base excision repair of DNA alkylation damage and restart of stalled replication forks during the DNA damage response. Dr. Eichman holds the 2009 Young Investigator Award from the Sigma Xi Scientific Research Society, the Vanderbilt Chancellor's Award for Research, two Vanderbilt-Ingram Cancer Center Impact Awards, and in 2013 became a member of the Faculty of 1000. Eichman teaches introductory and advanced undergraduate biochemistry and serves as the co-Director of the Vanderbilt Undergraduate Program in Biochemistry and Chemical Biology.
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Table of contents

MacroBac: New Technologies for Robust and Efficient Large-Scale Production of Recombinant Multiprotein ComplexesScott D. Gradia, Justin P. Ishida, Miaw-Sheue Tsai, Chris Jeans, John A. Tainer and Jill O. FussProduction and Assay of Recombinant Multisubunit Chromatin Remodeling ComplexesDavid M. Rees, Oliver Willhoft, Chia-Liang Lin, Rohan Bythell-Douglas and Dale B. WigleyAnalysis of Functional Dynamics of Modular Multidomain Proteins by SAXS and NMRMatthew K. Thompson, Aaron C. Ehlinger and Walter J. ChazinUse of Single-Cysteine Variants for Trapping Transient States in DNA Mismatch RepairPeter Friedhoff, Laura Manelyte, Luis Giron-Monzon, Ines Winkler, Flora Groothuizen and Titia K. SixmaExpression and Structural Analyses of Human DNA Polymerase θ (POLQ)Andrew W. Malaby, Sara K. Martin, Richard D. Wood and Sylvie DoublieStructural Studies of RNases H2 as an Example of Crystal Structure Determination of Protein-Nucleic Acid ComplexesMalgorzata Figiel and Marcin NowotnyDNA-PKcs, Allostery, and DNA Double-Strand Break Repair: Defining the Structure and Setting the StageDimitri Y. Chirgadze, David B. Ascher, Tom L. Blundell and Bancinyane L. SibandaSingle-Particle Electron Microscopy Analysis of DNA Repair ComplexesMarta Sawicka, Ricardo Aramayo, Rafael Ayala, Robert Glyde and Xiaodong ZhangUsing Atomic Force Microscopy to Characterize the Conformational Properties of Proteins and Protein-DNA Complexes that Carry Out DNA RepairSharonda LeBlanc, Hunter Wilkins, Zimeng Li, Parminder Kaur, Hong Wang and Dorothy A. ErieSingle-Molecule Methods for Nucleotide Excision Repair: Building a System to Watch Repair in Real TimeMuwen Kong, Emily C. Beckwitt, Luke Springall, Neil M. Kad and Bennett Van HoutenNext-Generation DNA Curtains for Single-Molecule Studies of Homologous RecombinationMichael M. Soniat, Logan R. Myler, Jeffrey M. Schaub, Yoori Kim, Ignacio F. Gallardo and Ilya J. FinkelsteinDetection of Reaction Intermediates in Mg2+-Dependent DNA Synthesis and RNA Degradation by Time-Resolved X-Ray CrystallographyNadine Samara, Yang Gao, Jinjun Wu and Wei YangAnalyzing the Catalytic Activities and Interactions of Eukaryotic Translesion Synthesis PolymerasesKyle T. Powers and M.T. WashingtonKinetic Methods for Studying DNA Glycosylases Functioning in Base Excision RepairChristopher T. Coey and Alexander C. DrohatTransient Kinetic Methods for Mechanistic Characterization of DNA Binding and Nucleotide FlippingJenna M. Hendershot and Patrick J. O'BrienWhat Combined Measurements from Structures and Imaging Tell Us About DNA Damage ResponsesChris A. Brosey, Zamal Ahmed, Susan P. Lees-Miller and John A. Tainer
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