Results 231 to 240 of about 254,017 (272)
Aortic Stenosis as a Mechanical Stressor and Tissue Energetics: Consistent Clue with Hypertensive Stress Septal Sign. [PDF]
J Clin MedYalcin F +5 more
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Metabolic expenditure of submaximal locomotion in naked mole-rats (Heterocephalus glaber) and Damaraland mole-rats (Fukomys damarensis). [PDF]
J Exp BiolThirkell JE +5 more
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Entropy of Muscle Fiber Histology Predicts Mobility in Older Adults: The Study of Muscle, Mobility, and Aging. [PDF]
Aging CellHong N +10 more
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Electronic structure calculations on gallium-vacancy defects in Si<sub>1-x</sub>Ge<sub>x</sub>. [PDF]
Sci RepChristopoulos SG +3 more
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Genetic Polymorphisms Associated with Lithium Response in Bipolar Disorder: An Integrative Review and In Silico Protein-Protein Interaction Analysis. [PDF]
Pharmaceuticals (Basel)Ejiohuo O, Szczepankiewicz A.
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2017
Measurements of daily energy expenditure and water turnover showed that energy expenditure in cheetahs was not significantly greater than expected, but water turnover was low. There were no sex differences in daily energy expenditure, but when hunting along riverbeds cheetahs used more energy than when hunting in the dunes, probably because they moved ...
M.G.L. Mills, M.E.J. Mills
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Measurements of daily energy expenditure and water turnover showed that energy expenditure in cheetahs was not significantly greater than expected, but water turnover was low. There were no sex differences in daily energy expenditure, but when hunting along riverbeds cheetahs used more energy than when hunting in the dunes, probably because they moved ...
M.G.L. Mills, M.E.J. Mills
+4 more sources
Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 1980
An understanding of the mechanisms by which bacteria derive their energy is clearly important for the prediction of growth yields. Bacteria can synthesize ATP by a variety of routes, by fermentation, by oxidative phosphorylation, and possibly by the excretion of metabolic end products. The bacterium Escherichia coli
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An understanding of the mechanisms by which bacteria derive their energy is clearly important for the prediction of growth yields. Bacteria can synthesize ATP by a variety of routes, by fermentation, by oxidative phosphorylation, and possibly by the excretion of metabolic end products. The bacterium Escherichia coli
openaire +2 more sources
Protoplasma, 1967
This brief review is intended specifically as a cementum to the papers in the section on physiology in this Symposium. Since those papers are diverse in approach and content this short essay can not cover the situation adequately. Much less could it aim at being comprehensive with respect to the field concerned with the energetics of transport ...
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This brief review is intended specifically as a cementum to the papers in the section on physiology in this Symposium. Since those papers are diverse in approach and content this short essay can not cover the situation adequately. Much less could it aim at being comprehensive with respect to the field concerned with the energetics of transport ...
openaire +2 more sources