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Title
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Comparative statistical mechanics of muscle and non-muscle contractile systems : stationary states of near-equilibrium systems in a linear regime
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Author
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Abstract
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| A. Huxley's equations were used to determine the mechanical properties of muscle myosin II (MII) at the molecular level, as well as the probability of the occurrence of the different stages in the actin-myosin cycle. It was then possible to use the formalism of statistical mechanics with the grand canonical ensemble to calculate numerous thermodynamic parameters such as entropy, internal energy, affinity, thermodynamic flow, thermodynamic force, and entropy production rate. This allows us to compare the thermodynamic parameters of a non-muscle contractile system, such as the normal human placenta, with those of different striated skeletal muscles (soleus and extensor digitalis longus) as well as the heart muscle and smooth muscles (trachea and uterus) in the rat. In the human placental tissues, it was observed that the kinetics of the actin-myosin crossbridges were considerably slow compared with those of smooth and striated muscular systems. The entropy production rate was also particularly low in the human placental tissues, as compared with that observed in smooth and striated muscular systems. This is partly due to the low thermodynamic flow found in the human placental tissues. However, the unitary force of non-muscle myosin (NMII) generated by each crossbridge cycle in the myofibroblasts of the human placental tissues was similar in magnitude to that of MII in the myocytes of both smooth and striated muscle cells. Statistical mechanics represents a powerful tool for studying the thermodynamics of all contractile muscle and non-muscle systems. |
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Language
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English
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Source (journal)
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Entropy: an international and interdisciplinary journal of entropy and information studies. - -
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Publication
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2017
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ISSN
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1099-4300
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DOI
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10.3390/E19100558
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Volume/pages
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19
:10
(2017)
, 14 p.
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Article Reference
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558
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ISI
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000414845100053
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Medium
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E-only publicatie
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Full text (Publisher's DOI)
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Full text (open access)
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