Mitochondrial respiration in hummingbird flight muscles.
about
Mitochondrial variability as a source of extrinsic cellular noiseBody size, metabolic rate, generation time, and the molecular clockEvolution of muscle phenotype for extreme high altitude flight in the bar-headed gooseThe smallest avian genomes are found in hummingbirdsSlow rate of molecular evolution in high-elevation hummingbirdsIn vivo microscopy reveals extensive embedding of capillaries within the sarcolemma of skeletal muscle fibersPhylogenetic systematics and biogeography of hummingbirds: Bayesian and maximum likelihood analyses of partitioned data and selection of an appropriate partitioning strategy.Resolution of a paradox: hummingbird flight at high elevation does not come without a costTwo research paths for probing the roles of oxygen in metabolic regulation.Repeated elevational transitions in hemoglobin function during the evolution of Andean hummingbirds.Energy metabolism, enzymatic flux capacities, and metabolic flux rates in flying honeybees.Glucose transporter expression in an avian nectarivore: the ruby-throated hummingbird (Archilochus colubris)Rat diaphragm mitochondria have lower intrinsic respiratory rates than mitochondria in limb musclesThe evolution of the mitochondria-to-calcium release units relationship in vertebrate skeletal muscles.Parasite specialization in a unique habitat: hummingbirds as reservoirs of generalist blood parasites of Andean birds.Relationships between enzymatic flux capacities and metabolic flux rates: nonequilibrium reactions in muscle glycolysisLower respiratory capacity in extraocular muscle mitochondria: evidence for intrinsic differences in mitochondrial composition and function.Activity of the mitochondrial calcium uniporter varies greatly between tissuesEnergy and metabolism.How animals move: comparative lessons on animal locomotion.Metabolism at the Max: How Vertebrate Organisms Respond to Physical Activity.The physiological basis of bird flight.Sugar Metabolism in Hummingbirds and Nectar Bats.Programming and regulation of metabolic homeostasis.High aerobic capacities in the skeletal muscles of pinnipeds: adaptations to diving hypoxia.Press-pulse: a novel therapeutic strategy for the metabolic management of cancer.Fiber capillarization relative to mitochondrial volume in diaphragm of shrew.(-)-Epicatechin enhances fatigue resistance and oxidative capacity in mouse muscle.The biomechanical origin of extreme wing allometry in hummingbirds.Evolved changes in the intracellular distribution and physiology of muscle mitochondria in high-altitude native deer mice.Denervation drives mitochondrial dysfunction in skeletal muscle of octogenarians.Fiber-type differences in muscle mitochondrial profiles.Plasticity in mitochondrial cristae density allows metabolic capacity modulation in human skeletal muscle.Estimating oxygen transport resistance of the microvascular wall.The Quest for Speed: Muscles Built for High-Frequency Contractions.A Comparative Study of Hummingbirds and Chickens Provides Mechanistic Insight on the Histidine Containing Dipeptide Role in Skeletal Muscle Metabolism
P2860
Q21563492-19D41DF2-EACC-480F-B972-923169B0F53CQ24563026-C671444D-11DB-439A-B9D4-2B99CE20D8DEQ24652818-C07E0A11-514B-4764-9926-69F2ADD8C620Q28749023-2D0D5E04-25B2-4028-9538-FDD87B08FF39Q28776590-45D3969E-07C3-4629-A61A-B269F7F58ABBQ30588922-A2563FC3-04B3-4167-A368-1FEF12616B0EQ30835000-9E850234-FB94-4D82-B88F-3995C602BB58Q30846042-248D86D0-6DAA-4600-A3CB-844285979776Q33690792-E742AEAB-3AD6-4DDC-ACF3-29BBA03D2878Q34039191-2A8ADFDB-A00B-45AA-9C41-F5BF78C3C90CQ34405892-76DF3489-9B83-4BD3-81D6-82A8DD0BD682Q35025340-77F72D2F-4321-4B0B-8CE0-BF770F07CF74Q35057193-0437F6F4-57D1-47D7-93D6-1EAE4311637CQ35377905-35BA0E6B-C914-4CF1-9243-1A3B7CA4BDCAQ36017496-2CCC2BA4-5C7E-4025-948E-97CB07E48F9EQ36248312-CDC72659-4E76-4540-B5AF-662E6C42FD68Q37040421-1870E859-02CD-4070-99B6-B64275CFF2FDQ37281674-E4E2AE74-4A00-40AD-AD90-10693B2035EBQ38110496-6B95A3B4-40C9-4A73-BA39-6B15FC9745FEQ38110512-8F661A7F-E1EF-4A70-91DF-5149CED2F1EBQ38596691-BF666D8D-DC38-4BAC-9E42-61A3022F0033Q38928625-9F1A1AAD-AAF4-4422-BC16-1724BD6ECAD5Q39433133-91F20C59-3A6F-4603-B402-98C6AEC72065Q41552715-414139C1-529E-4FB2-8A02-7D7AC70A545EQ41644272-BD628951-D672-4229-B769-3B19130AD1A8Q41989445-D6125CA9-81F7-4083-8ED9-3434A456ED11Q42522487-5A020F7C-6E67-4B0E-84B1-B4E48CA5CF12Q45790850-6E89ECC8-D9A7-46A7-909C-0979B438BA38Q46279966-BA3EDDD1-9FD5-4921-B7B9-8AE6D8852D91Q46381702-B2EBF424-3EBB-43B3-BD18-E009ED5D8F8CQ46473102-53AA302D-0557-4E51-8F68-DC42F37C5336Q47657191-D5F5F16D-139F-4CAE-A6E5-27B2242975FBQ51447081-6995BF68-4262-4476-BF94-8B1063698EF3Q52075913-3F371C15-BAE2-4B5C-80D7-820D7D3BA805Q54194317-2B0D2252-CE21-4AE8-A362-6162FA916263Q57041723-5310E895-15A6-41E7-9348-FB80A8B78A2D
P2860
Mitochondrial respiration in hummingbird flight muscles.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 1991
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mitochondrial respiration in hummingbird flight muscles.
@en
Mitochondrial respiration in hummingbird flight muscles.
@nl
type
label
Mitochondrial respiration in hummingbird flight muscles.
@en
Mitochondrial respiration in hummingbird flight muscles.
@nl
prefLabel
Mitochondrial respiration in hummingbird flight muscles.
@en
Mitochondrial respiration in hummingbird flight muscles.
@nl
P2093
P2860
P356
P1476
Mitochondrial respiration in hummingbird flight muscles.
@en
P2093
J R Lighton
O Mathieu-Costello
R K Suarez
P2860
P304
P356
10.1073/PNAS.88.11.4870
P407
P577
1991-06-01T00:00:00Z