Artificial selection for high activity favors mighty mini-muscles in house mice.
about
Glycogen storage and muscle glucose transporters (GLUT-4) of mice selectively bred for high voluntary wheel running.QTL underlying voluntary exercise in mice: interactions with the "mini muscle" locus and sex.Variation in within-bone stiffness measured by nanoindentation in mice bred for high levels of voluntary wheel running.Behavioral and pharmacological evaluation of a selectively bred mouse model of home cage hyperactivity.A novel intronic single nucleotide polymorphism in the myosin heavy polypeptide 4 gene is responsible for the mini-muscle phenotype characterized by major reduction in hind-limb muscle mass in miceDiffusible iodine-based contrast-enhanced computed tomography (diceCT): an emerging tool for rapid, high-resolution, 3-D imaging of metazoan soft tissues.Microarray analysis of replicate populations selected against a wing-shape correlation in Drosophila melanogaster.Gene expression profiling of gastrocnemius of "minimuscle" mice.Altered dopaminergic profiles: implications for the regulation of voluntary physical activity.Fine mapping of "mini-muscle," a recessive mutation causing reduced hindlimb muscle mass in miceExpression of angiogenic regulators and skeletal muscle capillarity in selectively bred high aerobic capacity mice.Experimental evolution and phenotypic plasticity of hindlimb bones in high-activity house mice.The evolution of gene expression in mouse hippocampus in response to selective breeding for increased locomotor activity.Predicting the bending properties of long bones: Insights from an experimental mouse model.Effects of early-life exposure to Western diet and wheel access on metabolic syndrome profiles in mice bred for high voluntary exercise.Circulating levels of endocannabinoids respond acutely to voluntary exercise, are altered in mice selectively bred for high voluntary wheel running, and differ between the sexes.Selective breeding as a tool to probe skeletal response to high voluntary locomotor activity in mice.Changes in shape and cross-sectional geometry in the tibia of mice selectively bred for increases in relative bone length.Western diet increases wheel running in mice selectively bred for high voluntary wheel running.Shape-shift: semicircular canal morphology responds to selective breeding for increased locomotor activity.Do mice bred selectively for high locomotor activity have a greater reliance on lipids to power submaximal aerobic exercise?Mobility as an emergent property of biological organization: Insights from experimental evolution.An integrative model of evolutionary covariance: a symposium on body shape in fishes.Maximal oxygen consumption in relation to subordinate traits in lines of house mice selectively bred for high voluntary wheel running.Continued divergence in VO2max of rats artificially selected for running endurance is mediated by greater convective blood O2 delivery.Genetic variations and physical activity as determinants of limb bone morphology: an experimental approach using a mouse model.
P2860
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P2860
Artificial selection for high activity favors mighty mini-muscles in house mice.
description
2003 nî lūn-bûn
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2003年の論文
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2003年学术文章
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2003年学术文章
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2003年学术文章
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2003年学术文章
@zh-hans
2003年学术文章
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2003年学术文章
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2003年學術文章
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2003年學術文章
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name
Artificial selection for high activity favors mighty mini-muscles in house mice.
@en
Artificial selection for high activity favors mighty mini-muscles in house mice.
@nl
type
label
Artificial selection for high activity favors mighty mini-muscles in house mice.
@en
Artificial selection for high activity favors mighty mini-muscles in house mice.
@nl
prefLabel
Artificial selection for high activity favors mighty mini-muscles in house mice.
@en
Artificial selection for high activity favors mighty mini-muscles in house mice.
@nl
P2093
P2860
P1476
Artificial selection for high activity favors mighty mini-muscles in house mice.
@en
P2093
Helga Guderley
John G Swallow
Philippe Houle-Leroy
Theodore Garland
P2860
P304
P356
10.1152/AJPREGU.00179.2002
P577
2003-02-01T00:00:00Z