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Actin filament organization and myosin head labelling patterns in vertebrate skeletal muscles in the rigor and weak binding states.
- Source :
-
Journal of muscle research and cell motility [J Muscle Res Cell Motil] 1988 Aug; Vol. 9 (4), pp. 344-58. - Publication Year :
- 1988
-
Abstract
- The structures of vertebrate skeletal muscles (particularly from frog and fish) in the rigor state are analysed in terms of the concept of target areas on actin filaments. Assuming that 100% of the heads are to be attached to actin in rigor, then satisfactory qualitative low-resolution modelling of observed X-ray diffraction data is obtained if the outer ends of these myosin heads can move axially (total range about 200A) and azimuthally (total range less than 60 degrees) from their original lattice sites on the myosin filament surface to attach in defined target areas on the actin filaments. On this basis, each actin target area comprises about four actin monomers along one of the two long-pitched helical strands of the actin filament (about 200 A) or an azimuthal range of actin binding sites of about 100 degrees around the thin filament axis. If myosin heads simply label in a non-specific way the nearest actin monomers to them, as could occur with non-specific transient attachment in a 'weak binding' state, then the predicted X-ray diffraction pattern would comprise layer lines at the same axial spacings (orders of 429 A) as those seen in patterns from resting muscle. It is shown that actin target areas in vertebrate skeletal muscles are probably arranged on an approximate 62 (right-handed) helix of pitch (P) of about 720 A, subunit translation P/6 and near repeat P/2. Troponin position need not be considered in defining the labelling pattern of cross-bridges on this 62 helix of target areas; the target areas appear to be defined solely by the azimuthal position of the actin binding sites. The distribution of actin filament labelling patterns could be regular in fish muscle which has a 'crystalline' A-band, but will be irregular in higher vertebrate muscles such as frog sartorius muscle.
- Subjects :
- Actin Cytoskeleton ultrastructure
Actins metabolism
Animals
Chemical Phenomena
Chemistry
Microfilament Proteins analysis
Microfilament Proteins metabolism
Muscle Rigidity
Muscles analysis
Muscles ultrastructure
Myosins metabolism
Actin Cytoskeleton analysis
Actins analysis
Cytoskeleton analysis
Muscles physiology
Myosins analysis
Subjects
Details
- Language :
- English
- ISSN :
- 0142-4319
- Volume :
- 9
- Issue :
- 4
- Database :
- MEDLINE
- Journal :
- Journal of muscle research and cell motility
- Publication Type :
- Academic Journal
- Accession number :
- 3065359
- Full Text :
- https://doi.org/10.1007/BF01773878