S. C. El-Saleh scite author profile

Steric blocking of actin-myosin interaction by tropomyosin has been a working hypothesis in the study of the regulation of skeletal muscle contraction, yet the simple movement of actin-associated tropomyosin from a myosin-blocking position (relaxation) to a nonblocking position (contraction) cannot adequately account for all of the biophysical and biochemical observations which have been made to date. Ambiguous assignment of tropomyosin positions on actin during contraction, due in part to the limited resolution of reconstruction techniques, may also hint at a real lack of clearcut 'on' and 'off' positioning of tropomyosin and tropomyosin-troponin complex. Recent biochemical evidence suggests processes relatively independent of tropomyosin-troponin may have a governing effect on contraction, involving kinetic constraints on actin-myosin interaction influenced by the binding of ATP and the intermediates of ATP hydrolysis. Based on our current understanding put forth in this review, it is clear that regulatory interactions in muscle contraction do not consist solely of steric effects but involve kinetic factors as well. Where the latter are being defined in systems reconstituted from purified proteins and their fragments, the steric components of regulation are most clearly observed in studies of structurally more intact physiologic systems (e.g. intact or skinned whole muscle fibres). The fine detail of the processes and their interplay remains an intriguing question. Likewise, the precise physical relationship of myosin with actin in the crossbridge cycle continues to elude definition. Refinement of several methodologies (X-ray crystallography, three-dimensional reconstruction, time-resolved X-ray diffraction) will increase the potential for detailing the molecular basis of the regulation of muscle contraction.

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Thymoquinone and Nigella sativa oil protection against methionine-induced hyperhomocysteinemia in rats

El-Saleh

Al-Sagair

Alkhalaf³

2004

International Journal of Cardiology

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Calcium-insensitive binding of heavy meromyosin to regulated actin at physiological ionic strength.

El-Saleh¹,

Potter²

1985

Journal of Biological Chemistry

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Analysis of mutations induced by replication of UV‐damaged plasmid DNA in hela cell extracts

Carty

El-Saleh

Zernik-Kobak

et al. 1995

Environ and Mol Mutagen

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We have used an SV40-based shuttle vector, pZ189, to investigate the capacity of HeLa cell extracts to reproduce the in vivo process of mutation fixation. We showed previously that when UV-irradiated pZ189 is replicated in these extracts, bypass of UV photoproducts occurs, resulting in base substitution mutations in the supF gene of the vector. Here we report the DNA sequence characterization of a collection of 60 of these UV-induced mutants. Most of the mutations observed are single or tandem double base substitutions at dipyrimidine sites; of these, approximately 90% are G:C-->A:T transitions. Mutations are observed predominantly at a few sites, in particular at positions 155 and 156 in the supF sequence. No dramatic differences in the mutation spectrum were observed when the orientation of the supF gene was reversed with respect to the SV40 origin of replication, suggesting that mutation fixation occurs similarly on both the leading and the lagging strands for DNA replication. Generally, the mutational hot spots observed in vitro are at the same sites as those observed when UV-irradiated pZ189 was passaged in human or monkey cells in culture. Thus, it appears that the replication and mutagenesis of UV-damaged templates in HeLa cell extracts accurately reflects these processes in the intact cell.

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Non-covalent binding of phosphate ions by striated muscle actin

El-Saleh

Johnson

1982

International Journal of Biological Macromolecules

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S. C. El-Saleh

The role of tropomyosin-troponin in the regulation of skeletal muscle contraction

Thymoquinone and Nigella sativa oil protection against methionine-induced hyperhomocysteinemia in rats

Calcium-insensitive binding of heavy meromyosin to regulated actin at physiological ionic strength.

Analysis of mutations induced by replication of UV‐damaged plasmid DNA in hela cell extracts

Non-covalent binding of phosphate ions by striated muscle actin

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