Hrh Prince scite author profile

High-resolution proton N M R spectrocopy has been used to study the solution structures of the subfragment 1 (SI) isoenzymes (containing either the A1 or A2 light chains) from rabbit skeletal muscle myosin and to investigate their interaction with actin. Superimposed upon broad components, the narrow signals of the S1 spectra are unexpectedly sharp, indicating that domains of varying sidechain mobility occur in the conformation adopted in solution. These observations are in agreement with previous studies of the mixed isoenzymes [Highsmith et al. (1 979) Biochemistry, 18, 4238 -42431. Peptide amide exchange studies show also that the S 1 structure accommodates fluctuations of sufficient amplitude to allow most of the peptide groups to come into contact with the solvent on the time scale-of the 'H-NMR experiment. The overall impression is that S1 is a molecule possessing backbone motility as well as domains of different sidechain mobility.Close comparison of the Sl(A1) and Sl(A2) spectra indicate that the N-terminal41 residues of the A1 light chain, rich in lysine, proline and alanine, display a high degree of segmental mobility. The difference spectrum [SI(AI)-Sl(A2)] obtained closely resembles the spectral simulation of the 41-residue segment. Upon addition of actin, many of the narrow S1 resonances decrease in intensity or progressively disappear altogether, indicative of intermediateslow exchange conditions consistent with the recognised high affinity between the two proteins. These changes are interpreted as an overall modulation in the observed and hence more mobile regions of S1 as has been suggested in earlier H-NMR studies referred to above. In particular, the differences noted between S l(A 1 ) and S l(A2) have now largely disappeared in their complexes with actin indicating a marked reduction in the segmental mobility of the N-terminal region of the light chain in S l(A 1). Together with other affinity chromatography results [Winstanley and Trayer (1 979) Biochem. Soc. Trans. 7, 703 -7041, this is good evidence for a direct interaction between this area of S l(A 1) and actin.The mechanism of muscle contraction, as originally proposed by Huxley [I] and modified by several groups of authors [2, 31, consists of a cycle of cross-bridge detachments and attachments, which are the basis of the 'sliding filament' theory, The myosin heads form cross-bridges with actin, which are then detached by ATP. The hydrolysis of ATP produces some conformational change in myosin which is restored as mechanical energy when the heads rebind actin. There is now ample evidence that this theory is correct. There are, however, considerable differences of opinion with regard to the intermolecular and intramolecular interactions involved in the actomyosin complex, and several models have been proposed, as reviewed by Taylor [4]. X-ray diffraction and electron microscopy indicate that the cross-bridge or part of it rotates during contraction [5] and the existence of a 'swivel' and a 'hinge' have been postulated in myosin [6 -1 I...

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Identification of a surface actin-binding site on myosin

Prince¹,

Levine²,

Trayer³

1982

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

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Hrh Prince

Proton Nuclear‐Magnetic‐Resonance Spectroscopy of Myosin Subfragment 1 Isoenzymes

Identification of a surface actin-binding site on myosin

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