Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.1 (myosin ATPase)
 1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Actin filaments partially cross-linked with ANP (N-(4-azido-2-nitrophenyl)-putrescine between Gln-41 and Cys-374 on adjacent monomers in the long-pitch helix were depolymerized and fractionated into pools of longitudinal cross-linked dimers (s(o)20,w = 5.55 +/- 0.22 S), trimers (s(o)20,w = 6.93 +/- 0.12 S), and higher-order oligomers. Competition binding experiments of myosin subfragment (S1) to cross-linked dimers in the presence of pyrenyl G-actin revealed about 2 orders of magnitude stronger binding of the first than that of the second S1 molecule to actin dimer. Under similar conditions the unpolymerized cross-linked actin species activated the MgATPase of S1 only severalfold compared to 70-fold activation by F-actin. The cross-linked dimers, trimers, and oligomers were polymerized into filaments by MgCl2 faster than un-cross-linked actin. In electron micrographs these filaments appeared sometimes shorter and had greater tendency to bend than un-cross-linked actin filaments. Small amounts of cross-linked actin dimers nucleated S1-induced polymerization of actin, but the polymerization by S1 was inhibited for pure populations of cross-linked dimers, trimers, and oligomers. The cross-linked dimers did not decrease the kinetic difference between the polymerization of actin by S1 isozymes S1(A1) and S1(A2). According to electron microscopy evidence, cross-linked actin oligomers polymerized by S1 yielded much shorter arrowhead structures than the un-cross-linked actin. These results indicate the importance of lateral actin-actin interaction for the activation of myosin ATPase and the polymerization of actin by S1.
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PMID:Intrastrand cross-linked actin between Gln-41 and Cys-374. II. Properties of cross-linked oligomers. 992 45

Structural and functional properties of intrastrand, ANP (N-(4-azido-2-nitrophenyl)-putrescine) cross-linked actin filaments, between Gln-41 and Cys-374 on adjacent monomers, were examined for several preparations of such actin. Extensively cross-linked F-actin (with 12% un-cross-linked monomers) lost at 60 degrees C the ability to activate myosin ATPase at a 100-fold slower rate and unfolded in CD melting experiments at a temperature higher by 11 degrees C than the un-cross-linked actin. Electron microscopy and image reconstruction of these filaments did not reveal any gross changes in F-actin structure but showed a change in the orientation of subdomain 2 and a decrease in interstrand connectivity. Rigor and weak (in the presence of ATP) myosin subfragment (S1) binding and acto-S1 ATPase did not show major changes upon 50% and 90% ANP cross-linking of F-actin; the Kd and Km values were little affected by the cross-linking, and the Vmax decreased by 50% for the extensively cross-linked actin. The cross-linking of actin (50%) decreased the mean speed and the number of sliding filaments in the in vitro motility assays by approximately 35% while the relative force, as measured by using external load in these assays, was inhibited by approximately 25%. The mean speed of actin filaments decreased with the increase in their cross-linking and approached 0 for the 90% cross-linked actin. Also examined were actin filaments reassembled from cross-linked and purified ANP cross-linked dimers, trimers, and oligomers. All of these filaments had the same acto-S1 ATPase and rigor S1 binding properties but different behavior in the in vitro motility assays. Filaments made of cross-linked dimers moved at approximately 50% of the speed of the un-cross-linked actin. The movement of filaments made of cross-linked trimers was inhibited more severely, and the oligomer-made filaments did not move at all. These results show the uncoupling between force generation and other events in actomyosin interactions and emphasize the role of actin filament structure and dynamics in the contractile process.
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PMID:Intrastrand cross-linked actin between Gln-41 and Cys-374. III. Inhibition of motion and force generation with myosin. 992 46