Myosin Catalytic Domain Flexibility in MgADP
Citations Over TimeTop 19% of 1994 papers
Abstract
Conventional EPR studies of muscle fibers labeled with a novel alpha-iodoketo spin label at Cys-707 of the myosin head revealed substantial internal domain reorganization on the addition of ADP to rigor fibers. The spin probes that are well-ordered in the rigor state become disordered and form two distinct populations. These orientational changes do not correspond to rotation of the myosin catalytic domain as a whole because other probes (maleimide and iodoacetamide nitroxides attached to the same Cys-707 of myosin head) report only a small (5-10 degrees) torsional rotation and little or no change in the tilt angle [Ajtai et al. (1992) Biochemistry 31, 207-17; Fajer (1994) Biophys. J. 66, 2039-50]. In the presence of ADP, the labeled domain becomes more flexible and executes large-amplitude microsecond motions, as measured by saturation-transfer EPR with rates (tau r = 150 microseconds) intermediate between the rotations of detached (tau r = 7 microseconds) and rigor heads (tau r = 2500 microseconds). This finding contrasts with an absence of global motion of the myosin head in ADP (tau r = 2200 microseconds) as reported by the maleimide spin label. Our results imply that the myosin head in a single chemical state (AM.ADP) is capable of attaining many internal configurations, some of which are dynamic. The presence of these slow structural fluctuations might be related to the slow release of the hydrolysis products of actomyosin ATPase.
Related Papers
- → Myosins : a superfamily of molecular motors(2008)119 cited
- → Enhanced catalytic activity of Pt/Al2O3 on the CH4 SCR(2011)24 cited
- → Catalytic reduction of N2O with CH4 over FeAlPO-5 catalyst(2008)15 cited
- → Determining influence of catalyst-reductant morphology on two different mechanisms of SCR by MOFs(2021)3 cited
- → Catalytic activity of H3PMo12−XWXO40 and H6P2MO18−XWXO62 heteropolyacid (HPA) catalysis in the direct preparation of dichloropropanol (DCP) from glycerol(2008)9 cited