Title of article
The role of MeH73 in actin polymerization and ATP hydrolysis
Author/Authors
Tomas Nyman، نويسنده , , Herwig Schüler، نويسنده , , Elena Korenbaum، نويسنده , , Clarence E Schutt، نويسنده , , Roger Karlsson، نويسنده , , Uno Lindberg، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
13
From page
577
To page
589
Abstract
In actin from many species H73 is methylated, but the function of this rare post-translational modification is unknown. Although not within bonding distance, it is located close to the γ-phosphate of the actin-bound ATP. In most crystal structures of actin, the δ1-nitrogen of the methylated H73 forms a hydrogen bond with the carbonyl of G158. This hydrogen bond spans the gap separating subdomains 2 and 4, thereby contributing to the forces that close the interdomain cleft around the ATP polyphosphate tail. A second hydrogen bond stabilizing interdomain closure exists between R183 and Y69. In the closed-to-open transition in β-actin, both of these hydrogen bonds are broken as the phosphate tail is exposed to solvent.
Here we describe the isolation and characterization of a mutant β-actin (H73A) expressed in the yeast Saccharomyces cerevisiae. The properties of the mutant are compared to those of wild-type β-actin, also expressed in yeast. Yeast does not have the methyl transferase necessary to methylate recombinant β-actin. Thus, the polymerization properties of yeast-expressed wild-type β-actin can be compared with normally methylated β-actin isolated from calf thymus. Since earlier studies of the actin ATPase almost invariably employed rabbit skeletal α-actin, this isoform was included in these comparative studies on the polymerization, ATP hydrolysis, and phosphate release of actin.
It was found that H73A-actin exchanged ATP at an increased rate, and was less stable than yeast-expressed wild-type actin, indicating that the mutation affects the spatial relationship between the two domains of actin which embrace the nucleotide. At physiological concentrations of Mg2+, the kinetics of ATP hydrolysis of the mutant actin were unaffected, but polymer formation was delayed. The comparison of methylated and unmethylated β-actin revealed that in the absence of a methyl group on H73, ATP hydrolysis and phosphate release occurred prior to, and seemingly independently of, filament formation. The comparison of β and α-actin revealed differences in the timing and relative rates of ATP hydrolysis and Pi-release.
Keywords
actin isoforms , Polymerization , methylhistidine-73 , ?-actin mutants , ATP hydrolysis
Journal title
Journal of Molecular Biology
Serial Year
2002
Journal title
Journal of Molecular Biology
Record number
1241565
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