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Magnesium, ADP, and Actin Binding Linkage of Myosin V: Evidence for Multiple Myosin V−ADP and Actomyosin V−ADP States
The [Mg2+] dependence of ADP binding to myosin V and actomyosin V was measured from the fluorescence of mantADP. Time courses of MgmantADP dissociation from myosin V and actomyosin V are biphasic with fast observed rate constants that depend on the [Mg2+] and slow observed rate constants that are [M...
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Published in: | Biochemistry (Easton) 2005-06, Vol.44 (24), p.8826-8840 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | The [Mg2+] dependence of ADP binding to myosin V and actomyosin V was measured from the fluorescence of mantADP. Time courses of MgmantADP dissociation from myosin V and actomyosin V are biphasic with fast observed rate constants that depend on the [Mg2+] and slow observed rate constants that are [Mg2+]-independent. Two myosin V−MgADP states that are in reversible equilibrium, one that exchanges nucleotide and cation slowly (strong binding) and one that exchanges nucleotide and cation rapidly (weak binding), account for the data. The two myosin V−MgADP states are of comparable energies, as indicated by the relatively equimolar partitioning at saturating magnesium. Actin binding lowers the affinity for bound Mg2+ 2-fold but shifts the isomerization equilibrium ∼6-fold to the weak ADP binding state, lowering the affinity and accelerating the overall rate of MgADP release. Actin does not weaken the affinity or accelerate the release of cation-free ADP, indicating that actin and ADP binding linkage is magnesium-dependent. Myosin V and myosin V−ADP binding to actin was assayed from the quenching of pyrene actin fluorescence. Time courses of myosin V−ADP binding and release are biphasic, consistent with the existence of two (weak and strong) quenched pyrene actomyosin V−ADP conformations. We favor a sequential mechanism for actomyosin V dissociation with a transition from strong to weak actin-binding conformations preceding dissociation. The data provide evidence for multiple myosin−ADP and actomyosin−ADP states and establish a kinetic and thermodynamic framework for defining the magnesium-dependent coupling between the actin and nucleotide binding sites of myosin. |
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ISSN: | 0006-2960 1520-4995 |
DOI: | 10.1021/bi0473509 |