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Hepple Russell T.; Agey Peter J.; Hazelwood Larnelle; Szewczak Joseph M.; MacMillen Richard E.; Mathieu-Costello Odile 《Journal of applied physiology》1998,85(5):1871-1876
An increased ratio of muscle capillary tofiber number (capillary/fiber number) at altitude has been found inonly a few investigations. The highly aerobic pectoralismuscle of finches living at 4,000-m altitude(Leucosticte arctoa; A) was recentlyshown to have a larger capillary/fiber number and greater contributionof tortuosity and branching to total capillary length than sea-levelfinches (Carpodacus mexicanus; SL) ofthe same subfamily (O. Mathieu-Costello, P. J. Agey, L. Wu, J. M. Szewczak, and R. E. MacMillen. Respir. Physiol. 111: 189-199, 1998). To evaluate the roleof muscle aerobic capacity on this trait, we examined the less-aerobicleg muscle (deep portion of anterior thigh) in the same birds. We foundthat, similar to pectoralis, the leg muscle in A finches had a greater capillary/fiber number (1.42 ± 0.06) than that in SLfinches (0.77 ± 0.05; P < 0.01),but capillary tortuosity and branching were not different. As alsofound in pectoralis, the resulting larger capillary/fiber surface in Afinches was proportional to a greater mitochondrial volume permicrometer of fiber length compared with that in SL finches. Theseobservations, in conjunction with a trend to a greater (rather thansmaller) fiber cross-sectional area in A than in SL finches (A: 484 ± 42, SL: 390 ± 26 µm2,both values at 2.5-µm sarcomere length;P = 0.093), support the notion thatchronic hypoxia is also a condition in which capillary-to-fiber structure is organized to match the size of the musclecapillary-to-fiber interface to fiber mitochondrial volume rather thanto minimize intercapillary O2diffusion distances. 相似文献
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