Evolutionary Convergence in Adaptation of Proteins to Temperature: A4-Lactate Dehydrogenases of Pacific Damselfishes (Chromis spp.)

doi:10.1093/molbev/msh021

MBE Advance Access originally published online on December 5, 2003

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Mol. Biol. Evol. 21(2):314-320. 2004
DOI: 10.1093/molbev/msh021
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Evolutionary Convergence in Adaptation of Proteins to Temperature: A₄-Lactate Dehydrogenases of Pacific Damselfishes (Chromis spp.)

Glenn C. Johns and George N. Somero

Hopkins Marine Station, Stanford University, Pacific Grove, California 1

E-mail: somero{at}stanford.edu.

We have compared the kinetic properties (Michaelis-Menten constant[K_m] and catalytic rate constant [k_cat]) and amino acid sequencesof orthologs of lactate dehydrogenase-A (A₄-LDH) from congenersof Pacific damselfishes (genus Chromis) native to cold-temperateand tropical habitats to elucidate mechanisms of enzymatic adaptationto temperature. Specifically, we determined whether the sitesof adaptive variation and the types of amino acids involvedin substitutions at these sites were similar in the Chromisorthologs and other orthologs of warm-adapted and cold-adaptedA₄-LDH previously studied. We report striking evolutionary convergencein temperature adaptation of this protein and present furthersupport for the hypothesis that enzyme adaptation to temperatureinvolves subtle amino acid changes at a few sites that affectthe mobility of the portions of the enzyme that are involvedin rate-determining catalytic conformational changes. We testedthe predicted effects of differences in sequence using site-directedmutagenesis. A single amino acid substitution in a key hingeregion of the A₄-LDH molecule is sufficient to change the kineticcharacteristics of a temperate A₄-LDH to that of a tropicalortholog. This substitution is at the same location that wasidentified in previous studies of adaptive variation in A₄-LDHand was hypothesized to be important in adjusting K_m and k_cat.Our results suggest that certain sites within an enzyme, notablythose that establish the energy changes associated with rate-limitingmovements of protein structure during catalysis, are "hot spots"of adaptation and that common types of amino acid substitutionsoccur at these sites to adapt structural "flexibility" and kineticproperties. Thus, despite the wide array of options that proteinshave to adjust their structural stabilities in the face of thermalstress, the adaptive changes that couple "flexibility" to alterationsof function may be limited in their diversity.

Key Words: temperature adaptation • A₄-LDH • enzyme kinetics • ldh-a gene • ortholog evolution • Chromis

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