scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1032504706 |
P356 | DOI | 10.1038/254074A0 |
P953 | full work available at URL | http://www.nature.com/articles/254074a0 |
http://www.nature.com/articles/254074a0.pdf | ||
P698 | PubMed publication ID | 123042 |
P2093 | author name string | W. Davison | |
G. Goldspink | |||
I. A. Johnston | |||
N. J. Walesby | |||
P2860 | cites work | Tissue sulfhydryl groups | Q26778486 |
Comparative biochemistry and physiology | Q27710495 | ||
The relative stabilities of the skeletal-muscle myosins of some animals | Q41864631 | ||
The effect of temperature on catalytic and regulatory functions of pyruvate kinases of the rainbow trout and the Antarctic fish Trematomus bernacchii | Q42725809 | ||
The effects of environmental temperature on the properties of myofibrillar adenosine triphosphatase from various species of fish | Q42923760 | ||
Studies on the proteins of fish skeletal muscle. 7. Denaturation and aggregation of cod myosin | Q42962356 | ||
Purification and properties of tuna myosin | Q68401738 | ||
The sulfhydryl content of rabbit and trout myosins in relation to protein stability | Q68470855 | ||
Myofibrillar ATPase activities of red and white myotomal muscles of marine fish | Q68494413 | ||
P433 | issue | 5495 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cold | Q270952 |
P304 | page(s) | 74-75 | |
P577 | publication date | 1975-03-01 | |
1975-03-06 | |||
P1433 | published in | Nature | Q180445 |
P1476 | title | Temperature adaptation in myosin of Antarctic fish | |
P478 | volume | 254 |
Q30661996 | Characterisation of red and white muscle myosin heavy chain gene coding sequences from antarctic and tropical fish |
Q52432134 | Differences in temperature dependence of muscle contractile properties and myofibrillar ATPase activity in a cold-temperature fish |
Q39109572 | Evolutionary adaptation of muscle power output to environmental temperature: force-velocity characteristics of skinned fibres isolated from antarctic, temperate and tropical marine fish |
Q39842216 | Further studies on the adaptation of fish myofibrillar ATPases to different cell temperatures |
Q69994831 | Histochemical and immunohistochemical profile of pink muscle fibres in some teleosts |
Q60302790 | Locomotion at –1.0°C: burst swimming performance of five species of Antarctic fish |
Q57525256 | Mechanisms Defining Thermal Limits and Adaptation in Marine Ectotherms: An Integrative View |
Q57525456 | Metabolic Biochemistry: Its Role in Thermal Tolerance and in the Capacities of Physiological and Ecological Function |
Q39586841 | Molecular Adaptability of Carp Myosin: a Study of Some Physico-Chemical Properties and Their Comparison with Those of Rabbit Myosin |
Q36079485 | Polymorphism and specificity of myosin |
Q35233581 | Protein surface softness is the origin of enzyme cold-adaptation of trypsin |
Q34087734 | Psychrophilic enzymes: revisiting the thermodynamic parameters of activation may explain local flexibility |
Q52182918 | Selective gene expression during adaptation of muscle in response to different physiological demands. |
Q43027407 | Structural, kinetic, and calorimetric characterization of the cold-active phosphoglycerate kinase from the antarctic Pseudomonas sp. TACII18. |
Q72492502 | Temperature acclimation of Mg2+Ca2+-myofibrillar ATPase from a cold-selective teleost,Salvelinus fontinalis: a compromise solution |
Q40741653 | The sarcoplasmic proteins of white muscle of an Antarctic hemoglobin-free fish, Champsocephalus gunnari |
Q36743422 | Thermal limits and adaptation in marine Antarctic ectotherms: an integrative view |
Q39744082 | Thermodynamic activation parameters of fish myofibrillar ATPase enzyme and evolutionary adaptations to temperature |
Q60302811 | Turning up the heat on subzero fish: thermal dependence of sustained swimming in an Antarctic notothenioid |
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