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Modification of crossbridge states by ethylene glycol in insect flight muscle (1984)

Clarke, M. L. ; Rodger, C. D. ; Tregear, R. T.

Springer

Journal of muscle research and cell motility 5 (1984), S. 81-96

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Substitution of ethylene glycol for part of the solvent water changes the mechanical properties, structure and nucleotide binding of glycerol-extracted flight muscle fibres from the waterbugLethocerus. On addition of ethylene glycol the rigor tension falls, rapidly and reversibly. With increasing glycol concentration the effect saturates at a non-zero tension. The isotonic stiffness is unchanged on adding ethylene glycol. Adding MgAMPPNP (adenylylimidodiphosphate) to a muscle fibre in 50% ethylene glycol causes a further rapid tension fall; above 100 µm AMPPNP the tension reaches zero. The isotonic stiffness of restretched muscle is then close to that of a relaxed fibre. Removal of MgAMPPNP from the bathing medium has no immediate mechanical effect. After several hours the isotonic stiffness rises to some extent; on removal of the glycol both tension and stiffness rise to rigor values within one minute.3H-Labelled AMPPNP binds to muscle fibres in 50% ethylene glycol in a similar amount to the number of myosin heads present. The binding is tighter than that in aqueous solution and the nucleotide is only released very slowly. Upon removal of the ethylene glycol nucleotide is rapidly released. X-ray diffraction of muscle in 50% ethylene glycol reveals a highly ordered structure, in which both the 14 nm and the 38 nm layer lines are sharply sampled and are of intermediate values between rigor and relaxation. The two inner equatorial peaks are also of intermediate values. On adding MgAMPPNP the pattern resembles that of relaxed muscle. Upon removal of the nucleotide the pattern does not revert towards rigor but on removal of glycol it does. These results are interpreted in terms of changes within the myosin heads and their array within the filament lattice.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00713153

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The process of muscle relaxation by the combined action of MgAMPPNP and ethylene glycol (1984)

Tregear, R. T. ; Terry, C. S. ; Sayers, A. J.

Springer

Journal of muscle research and cell motility 5 (1984), S. 687-696

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ISSN: 1573-2657

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Insect flight muscle fibres were relaxed by the combined action of MgAMPPNP and ethylene glycol, as measured by the stiffness of the fibres. Relaxation occurred over a small range of glycol concentration. Addition of Ca2+ raised the glycol required for relaxation. The speed at which the stiffness measurement was made did not influence the glycol concentration at which relaxation occurred. Glycol in excess of that needed to relax the muscle caused a slight rise in high-frequency stiffness. Removal of the glycol restored the rigor stiffness. Under glycol-relaxed conditions, much of the AMPPNP bound in muscle fibres was retained during cold-chase (elution of [3H] AMPPNP by nonradioactive AMPPNP); the intensity ratio of the inner equatorial X-ray diffraction peaks rose upon glycol relaxation to a value slightly below that characteristic of natural relaxation. The results are interpreted in terms of cooperative attachment of the crossbridges to actin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00713927

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