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本文引用的文献

1
Energy cost of tonic contraction in a lamellibranch catch muscle.瓣鳃纲动物抓握肌强直收缩的能量消耗
J Physiol. 1968 Sep;198(1):127-43. doi: 10.1113/jphysiol.1968.sp008597.
2
The nature of the phasic and the tonic responses of the anterior byssal retractor muscle of Mytilus.贻贝前足丝牵缩肌的相位和紧张性反应的性质。
J Physiol. 1959 Dec;149(1):154-77. doi: 10.1113/jphysiol.1959.sp006332.
3
THE EFFECT OF LOAD ON THE HEAT OF SHORTENING OF MUSCLE.负荷对肌肉缩短热的影响。
Proc R Soc Lond B Biol Sci. 1964 Jan 14;159:297-318. doi: 10.1098/rspb.1964.0004.
4
[Thermogenesis of smooth muscle of lamellibranchs during phasic contraction].[瓣鳃类平滑肌阶段性收缩期间的产热]
Arch Int Physiol Biochim. 1962 Jun;70:416-7.
5
Contraction in mulluscan smooth muscle.软体动物平滑肌的收缩。
J Physiol. 1958 May 28;141(3):385-97. doi: 10.1113/jphysiol.1958.sp005982.
6
The action of 5-hydroxytryptamine on Mytilus smooth muscle.5-羟色胺对贻贝平滑肌的作用。
J Physiol. 1967 Oct;192(3):869-77. doi: 10.1113/jphysiol.1967.sp008337.
7
Factors influencing contraction and catch in Mytilus smooth muscle.影响贻贝平滑肌收缩和强直收缩的因素。
J Physiol. 1967 Oct;192(3):847-56. doi: 10.1113/jphysiol.1967.sp008335.
8
The respiration of the anterior byssus retractor muscle of Mytilus edulis (ABRM) after a phasic contraction.紫贻贝前足丝收缩肌(ABRM)在阶段性收缩后的呼吸情况。
J Physiol. 1967 Jan;188(1):67-82. doi: 10.1113/jphysiol.1967.sp008124.
9
The energetics of tortoise muscle.乌龟肌肉的能量学
J Physiol. 1968 Aug;197(3):685-707. doi: 10.1113/jphysiol.1968.sp008582.
10
The structure of Mytilus smooth muscle and the electrical constants of the resting muscle.贻贝平滑肌的结构及静息肌肉的电常数。
J Gen Physiol. 1973 Feb;61(2):207-21. doi: 10.1085/jgp.61.2.207.

紫贻贝前足丝牵缩肌等长收缩和缩短过程中的张力与产热

Tension and heat production during isometric contractions and shortening in the anterior byssus retractor muscle of Mytilus edulis.

作者信息

Gilbert S H

出版信息

J Physiol. 1978 Sep;282:7-20. doi: 10.1113/jphysiol.1978.sp012444.

DOI:10.1113/jphysiol.1978.sp012444
PMID:722564
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1282720/
Abstract
  1. Tension and heat production were measured during phasic isometric contractions and isovelocity shortening in the anterior byssus retractor muscle (ABRM) of Mytilus edulis at 20 degrees C. 2. Isometric tension at lo was 550 +/- 40 mN/mm2 (S.D. for 173 observations in nine muscles), while the isometric maintenance heat rate was 1.0 +/- 0.2 mW/g wet wt. (S.D. for seventy-eight observations in eight muscles). 3. Isometric tension and heat production were measured as functions of muscle length over a range of 0.79--1.14 lo and were found to bear a linear relation to each other. 4. The force-velocity relation was determined in isovelocity releases imposed during tetanic stimulation and was found to fit the Hill equation with parameters alpha/Po = 0.07 +/- 0.01 and b/lo = 0.016 +/- 0.0007 sec-1 (S.E. from non-linear least-squares regression of the pooled data from seven experiments). 5. Heat production measured in the same experiments showed that shortening heat is produced with a shortening heat coefficient alpha/Po of 0.15. Shortening heat does not appear to be force-dependent, and separate experiments confirmed that it is a linear function of the amount of shortening.
摘要
  1. 在20摄氏度下,对紫贻贝前足丝牵缩肌(ABRM)进行等长收缩和等速缩短时,测量了张力和产热。2. 在lo时的等长张力为550±40 mN/mm2(9块肌肉中173次观察的标准差),而等长维持热率为1.0±0.2 mW/g湿重(8块肌肉中78次观察的标准差)。3. 在0.79--1.14 lo范围内,测量了等长张力和产热随肌肉长度的变化,发现它们彼此呈线性关系。4. 在强直刺激期间进行的等速释放中确定了力-速度关系,发现其符合希尔方程,参数α/Po = 0.07±0.01,b/lo = 0.016±0.0007秒-1(来自七个实验汇总数据的非线性最小二乘回归的标准误)。5. 在相同实验中测量的产热表明,缩短热以0.15的缩短热系数α/Po产生。缩短热似乎与力无关,单独的实验证实它是缩短量的线性函数。