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Divergent evolution of protein conformational dynamics in dihydrofolate reductase

Academic Article
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Overview

related to degree

  • Tuttle, Lisa, Ph.D. in Biology, Scripps Research 2005 - 2012
  • Bhabha, Gira Sorab, Ph.D. in Biology, Scripps Research 2006 - 2011
  • Ekiert, Damian, Ph.D. in Chemical Biology, Scripps Research 2006 - 2011

authors

  • Bhabha, Gira Sorab
  • Ekiert, Damian
  • Jennewein, M.
  • Zmasek, C. M.
  • Tuttle, Lisa
  • Kroon, G.
  • Dyson, Jane
  • Godzik, A.
  • Wilson, Ian
  • Wright, Peter

publication date

  • November 2013

journal

  • Nature Structural & Molecular Biology  Journal

abstract

  • Molecular evolution is driven by mutations, which may affect the fitness of an organism and are then subject to natural selection or genetic drift. Analysis of primary protein sequences and tertiary structures has yielded valuable insights into the evolution of protein function, but little is known about the evolution of functional mechanisms, protein dynamics and conformational plasticity essential for activity. We characterized the atomic-level motions across divergent members of the dihydrofolate reductase (DHFR) family. Despite structural similarity, Escherichia coli and human DHFRs use different dynamic mechanisms to perform the same function, and human DHFR cannot complement DHFR-deficient E. coli cells. Identification of the primary-sequence determinants of flexibility in DHFRs from several species allowed us to propose a likely scenario for the evolution of functionally important DHFR dynamics following a pattern of divergent evolution that is tuned by cellular environment.

subject areas

  • Amino Acid Sequence
  • Crystallography, X-Ray
  • Escherichia coli
  • Evolution, Molecular
  • Genetic Complementation Test
  • Genetic Drift
  • Humans
  • Models, Molecular
  • Molecular Dynamics Simulation
  • Molecular Sequence Data
  • Mutation
  • Protein Conformation
  • Selection, Genetic
  • Sequence Alignment
  • Tetrahydrofolate Dehydrogenase
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Identity

PubMed Central ID

  • PMC3823643

International Standard Serial Number (ISSN)

  • 1545-9993

Digital Object Identifier (DOI)

  • 10.1038/nsmb.2676

PubMed ID

  • 24077226
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Additional Document Info

start page

  • 1243

end page

  • 1249

volume

  • 20

issue

  • 11

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