Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Variation in the isometric maintenance heat rate with muscle length near that of maximum tension in frog striated muscle.

Literature DB >> 6968824

Variation in the isometric maintenance heat rate with muscle length near that of maximum tension in frog striated muscle.

Abstract

1. Tension and heat rate were measured as a function of muscle length in the range 0.75--1.25 lO in 10-sec isometric tetani in frog striated muscle at 0 degrees C in seven experiments. lO was defined as the length at which maximal tension was developed. 2. The length at which the stable maintenance heat rate (hB) was maximal was 7--16% lO shorter than the length at which tension was maximal (Pmax). 3. The range of hB at the length at which tension was maximal was 0.82-0.97 times the maximum value of hB. 4. For equal values of tension of 0.9 Pmax on each side of lO, hB was almost 40% greater at the shorter muscle length. 5. The results show that h(B) varies considerably with muscle length near lO, where tension varies little, and imply that tension is not the sole determinant of energy liberation in this little region.

Mesh：

Year: 1980 PMID： 6968824 PMCID： PMC1282871 DOI： 10.1113/jphysiol.1980.sp013265

Source DB: PubMed Journal: J Physiol ISSN： 0022-3751 Impact factor: 5.182

13 in total

Review 1. Skeletal muscle energetics and metabolism.

Authors: E Homsher; C J Kean
Journal: Annu Rev Physiol Date: 1978 Impact factor: 19.318

2. Rate of heat production related to degree of filament overlap in chick ALD muscle.

Authors: Y Matsumoto; A M McPhedran
Journal: Am J Physiol Date: 1977-07

3. Activation heat, activation metabolism and tension-related heat in frog semitendinosus muscles.

Authors: E Homsher; W F Mommaerts; N V Ricchiuti; A Wallner
Journal: J Physiol Date: 1972-02 Impact factor: 5.182

4. Calcium transients in isolated amphibian skeletal muscle fibres: detection with aequorin.

Authors: J R Blinks; R Rüdel; S R Taylor
Journal: J Physiol Date: 1978-04 Impact factor: 5.182

5. Relationship between initial chemical reactions and oxidative recovery metabolism for single isometric contractions of frog sartorius at 0 degrees C.

Authors: M J Kushmerick; R J Paul
Journal: J Physiol Date: 1976-01 Impact factor: 5.182

6. Aerobic recovery metabolism following a single isometric tetanus in frog sartorius muscle at 0 degrees C.

Authors: M J Kushmerick; R J Paul
Journal: J Physiol Date: 1976-01 Impact factor: 5.182

7. Chemical change and energy output during muscular contraction.

Authors: C Gilbert; K M Kretzschmar; D R Wilkie; R C Woledge
Journal: J Physiol Date: 1971-10 Impact factor: 5.182

8. ATP utilization associated with recovery metabolism in anaerobic frog muscle.

Authors: R R DeFuria; M J Kushmerick
Journal: Am J Physiol Date: 1977-01

9. Energetics of activation in frog and toad muscle.

Authors: I C Smith
Journal: J Physiol Date: 1972-02 Impact factor: 5.182

10. Energy liberation and chemical change in frog skeletal muscle during single isometric tetanic contractions.

Authors: E Homsher; J A Rall; A Wallner; N V Ricchiuti
Journal: J Gen Physiol Date: 1975-01 Impact factor: 4.086

7 in total

1. Knee angle-dependent oxygen consumption of human quadriceps muscles during maximal voluntary and electrically evoked contractions.

Authors: R D Kooistra; C J de Ruiter; A de Haan
Journal: Eur J Appl Physiol Date: 2007-10-26 Impact factor: 3.078

Variation in the isometric maintenance heat rate with muscle length near that of maximum tension in frog striated muscle.

Review 1. Skeletal muscle energetics and metabolism.

2. Rate of heat production related to degree of filament overlap in chick ALD muscle.

3. Activation heat, activation metabolism and tension-related heat in frog semitendinosus muscles.

4. Calcium transients in isolated amphibian skeletal muscle fibres: detection with aequorin.

5. Relationship between initial chemical reactions and oxidative recovery metabolism for single isometric contractions of frog sartorius at 0 degrees C.

6. Aerobic recovery metabolism following a single isometric tetanus in frog sartorius muscle at 0 degrees C.

7. Chemical change and energy output during muscular contraction.

8. ATP utilization associated with recovery metabolism in anaerobic frog muscle.

9. Energetics of activation in frog and toad muscle.

10. Energy liberation and chemical change in frog skeletal muscle during single isometric tetanic contractions.

1. Knee angle-dependent oxygen consumption of human quadriceps muscles during maximal voluntary and electrically evoked contractions.

2. The thermoelastic effect in rigor muscle of the frog.

3. High energy phosphate utilization for work production and tension maintenance in frog muscle.

4. The effect of length range on heat rate and power during shortening near in situ length in frog muscle.

5. The sarcomere length dependence of the rate of heat production during isometric tetanic contraction of frog muscles.

6. The dependence on extent of shortening of the extra energy liberated by rapidly shortening frog skeletal muscle.

7. Diminished fatigue at reduced muscle length in human skeletal muscle.