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Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C

Frog sartorius muscle stimulated isometrically for 3 s every 256 s to attain a steady state in which initial heat (QI), recovery heat (QR), rate of O2 consumption (JO2), and isometric force (PO) generated are constant for each cycle. For a 3-s tetanus given every 256 s, JO2 was 0.106 mumol/(min . g...

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Formato: Texto
Lenguaje:English
Publicado: The Rockefeller University Press 1983
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Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2215577/
https://www.ncbi.nlm.nih.gov/pubmed/6601686
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collection PubMed
description Frog sartorius muscle stimulated isometrically for 3 s every 256 s to attain a steady state in which initial heat (QI), recovery heat (QR), rate of O2 consumption (JO2), and isometric force (PO) generated are constant for each cycle. For a 3-s tetanus given every 256 s, JO2 was 0.106 mumol/(min . g blotted weight), approximately 71% of the maximum rate observed, whereas lactate production was negligible under these conditions. QI, QT(= QI + QR), and QT/QI were 88.2, 181.5, 2.06 mJ/g blotted weight, respectively. The high-energy phosphate breakdown (delta approximately P) breakdown during the first 3-s tetanus was not different from that during a contraction in the steady state and averaged 1.1 mumol/g blotted weight. Less than half of the initial heat could be accounted for in terms of the extent of the known chemical reactions occurring during contraction. From the stoichiometry of the theoretical biochemical pathways, the amount of ATP synthesized in the steady state exceeds delta approximately P during contraction by more than twofold, corresponding to an apparent ADP:O ratio of 1.5. If it is assumed that carbohydrate oxidation is the only net chemical reaction in the steady state, the total heat production can be explained on the basis of the measured JO2. Under this assumption, heat production during recovery was less than that expected on the basis of the oxygen consumption and delta approximately P during contraction. These observations support the hypothesis that the unexplained enthalpy production and low apparent ADP:O ratio are causally related, i.e., that the reaction(s) producing the unexplained heat during contraction is reversed during the recovery period.
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spelling pubmed-22155772008-04-23 Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C J Gen Physiol Articles Frog sartorius muscle stimulated isometrically for 3 s every 256 s to attain a steady state in which initial heat (QI), recovery heat (QR), rate of O2 consumption (JO2), and isometric force (PO) generated are constant for each cycle. For a 3-s tetanus given every 256 s, JO2 was 0.106 mumol/(min . g blotted weight), approximately 71% of the maximum rate observed, whereas lactate production was negligible under these conditions. QI, QT(= QI + QR), and QT/QI were 88.2, 181.5, 2.06 mJ/g blotted weight, respectively. The high-energy phosphate breakdown (delta approximately P) breakdown during the first 3-s tetanus was not different from that during a contraction in the steady state and averaged 1.1 mumol/g blotted weight. Less than half of the initial heat could be accounted for in terms of the extent of the known chemical reactions occurring during contraction. From the stoichiometry of the theoretical biochemical pathways, the amount of ATP synthesized in the steady state exceeds delta approximately P during contraction by more than twofold, corresponding to an apparent ADP:O ratio of 1.5. If it is assumed that carbohydrate oxidation is the only net chemical reaction in the steady state, the total heat production can be explained on the basis of the measured JO2. Under this assumption, heat production during recovery was less than that expected on the basis of the oxygen consumption and delta approximately P during contraction. These observations support the hypothesis that the unexplained enthalpy production and low apparent ADP:O ratio are causally related, i.e., that the reaction(s) producing the unexplained heat during contraction is reversed during the recovery period. The Rockefeller University Press 1983-03-01 /pmc/articles/PMC2215577/ /pubmed/6601686 Text en This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/4.0/).
spellingShingle Articles
Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title_full Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title_fullStr Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title_full_unstemmed Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title_short Physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree C
title_sort physical and biochemical energy balance during an isometric tetanus and steady state recovery in frog sartorius at 0 degree c
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2215577/
https://www.ncbi.nlm.nih.gov/pubmed/6601686