Chapter 4: Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism

Meredith C. Foley, Karunesh Arora, Tamar Schlick

Research output: Chapter in Book/Report/Conference proceedingChapter

Original languageEnglish (US)
Title of host publicationInnovations in Biomolecular Modeling and Simulations
Pages81-110
Number of pages30
StatePublished - 2012

Publication series

NameRSC Biomolecular Sciences
ISSN (Print)17577152
ISSN (Electronic)17577160

Fingerprint

DNA-Directed DNA Polymerase
Substrates

ASJC Scopus subject areas

  • Biochemistry
  • Molecular Biology
  • Chemistry(all)

Cite this

Foley, M. C., Arora, K., & Schlick, T. (2012). Chapter 4: Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism. In Innovations in Biomolecular Modeling and Simulations (pp. 81-110). (RSC Biomolecular Sciences).

Chapter 4 : Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism. / Foley, Meredith C.; Arora, Karunesh; Schlick, Tamar.

Innovations in Biomolecular Modeling and Simulations. 2012. p. 81-110 (RSC Biomolecular Sciences).

Research output: Chapter in Book/Report/Conference proceedingChapter

Foley, MC, Arora, K & Schlick, T 2012, Chapter 4: Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism. in Innovations in Biomolecular Modeling and Simulations. RSC Biomolecular Sciences, pp. 81-110.
Foley MC, Arora K, Schlick T. Chapter 4: Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism. In Innovations in Biomolecular Modeling and Simulations. 2012. p. 81-110. (RSC Biomolecular Sciences).
Foley, Meredith C. ; Arora, Karunesh ; Schlick, Tamar. / Chapter 4 : Intrinsic motions of DNA polymerases underlie their remarkable specificity and selectivity and suggest a hybrid substrate binding mechanism. Innovations in Biomolecular Modeling and Simulations. 2012. pp. 81-110 (RSC Biomolecular Sciences).
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