• Title of article

    Structures of Thermophilic and Mesophilic Adenylate Kinases from the Genus Methanococcus

  • Author/Authors

    Angela R. Criswell، نويسنده , , Euiyoung Bae، نويسنده , , Boguslaw Stec، نويسنده , , Jordan Konisky، نويسنده , , Gary E. Wesenberg and George N. Phillips Jr.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    13
  • From page
    1087
  • To page
    1099
  • Abstract
    The crystal structures of adenylate kinases from the thermophile Methanococcus thermolithotrophicus and the mesophile Methanococcus voltae have been solved to resolutions of 2.8 Å and 2.5 Å, respectively. The structures of the enzymes are similar to that of the adenylate kinase from archaeal Sulfolobus acidocaldarius in many respects such as the extended central β-sheets, the short LID domain, and the trimeric state. The analysis of unligated and AMP-bound subunits of M. voltae suggests that movements of two mobile domains are not independent of each other. The methanococcal structures are examined with respect to their lack of the “invariant” Lys residue within the phosphate-binding loop, and two Arg residues in the LID domain are proposed as substituting residues based on their conservation among archaeal adenylate kinases and mobility within the structures. Since S. acidocaldarius adenylate kinase has the invariant Lys residue as well as the two Arg residues, its phosphate-binding loop is examined and compared with those of other adenylate kinases. On the basis of the comparison and other available biochemical data, the unusual conformation of the Lys residue in S. acidocaldarius adenylate kinase is explained. Despite possessing 78% sequence identity, the methanococcal enzymes exhibit significantly different thermal stabilities. To study the determinants of thermostability, several structural features including salt-links, hydrogen bonds, packing density, surface to volume ratio and buried surface area are compared between the enzymes. From their difference in apolar buried surface area, hydrophobic interaction is proposed to be a basis for the disparate thermostabilities, and the corresponding free energy difference is also estimated. Results of previous mutational studies are interpreted in terms of the crystal structures, and support the importance of hydrophobic interactions in thermostability.
  • Keywords
    Adenylate kinase , Methanococcus , X-ray crystallography , protein thermostability , phosphate-binding loop
  • Journal title
    Journal of Molecular Biology
  • Serial Year
    2003
  • Journal title
    Journal of Molecular Biology
  • Record number

    1242889