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Estimating impact forces of tail club strikes by ankylosaurid dinosaursStrength and cross-sectional area of human skeletal muscleMotor units in cat soleus muscle: physiological, histochemical and morphological characteristicsThe orderly recruitment of human motor units during voluntary isometric contractionsPhysiological types and histochemical profiles in motor units of the cat gastrocnemiusMyosin light chain kinase and the role of myosin light chain phosphorylation in skeletal muscleHind limb scaling of kangaroos and wallabies (superfamily Macropodoidea): implications for hopping performance, safety factor and elastic savingsSarcomere length-dependence of activity-dependent twitch potentiation in mouse skeletal muscle.Myosin heavy chain and physiological adaptation of the rat diaphragm in elastase-induced emphysemaEffects of dietary curcumin or N-acetylcysteine on NF-kappaB activity and contractile performance in ambulatory and unloaded murine soleusRate of force development: physiological and methodological considerationsCa2+-dependent regulations and signaling in skeletal muscle: from electro-mechanical coupling to adaptationForce per cross-sectional area from molecules to muscles: a general property of biological motors.The measurement of maximal (anaerobic) power output on a cycle ergometer: a critical reviewEffects of terbutaline on force and intracellular calcium in slow-twitch skeletal muscle fibres of the ratA mechanism for increased contractile strength of human pennate muscle in response to strength training: changes in muscle architectureCerium oxide nanoparticle treatment ameliorates peritonitis-induced diaphragm dysfunctionDiaphragm atrophy and contractile dysfunction in a murine model of pulmonary hypertensionEndogenous expression and developmental changes of HSP72 in rat skeletal musclesDivergent Skull Morphology Supports Two Trophic Specializations in Otters (Lutrinae)Muscle dimensions of the foot in the orangutan and the chimpanzeeThe jaw adductor resultant and estimated bite force in primatesJaw-muscle fiber architecture in tufted capuchins favors generating relatively large muscle forces without compromising jaw gapeMechanical constraints on the functional morphology of the gibbon hind limbDimensions of forelimb muscles in orangutans and chimpanzeesForce-generating capacity and contractile protein content of arterial smooth muscle.Maximum contractile force of human diaphragm muscle, determined in vivo.Estimates of cellular mechanics in an arterial smooth muscleSynthesis of adult myosin light chains by embryonic muscle cultures.A muscle's force depends on the recruitment patterns of its fibers.Allometric radial growth in muscle, comparing fibres with strong and with weak adenosine triphosphatase activity.Enhanced effect of microdystrophin gene transfection by HSV-VP22 mediated intercellular protein transportMagnitude of sarcomere extension correlates with initial sarcomere length during lengthening of activated single fibers from soleus muscle of ratsTwitch pressures in the assessment of diaphragm weakness.Effects of chronic low frequency electrical stimulation on normal human tibialis anterior muscleβ-hydroxy-β-methylbutyrate (HMB) prevents sepsis-induced diaphragm dysfunction in miceHyperglycemia-induced diaphragm weakness is mediated by oxidative stress.Weekly Time Course of Neuro-Muscular Adaptation to Intensive Strength Training.Animal models of glycogen storage conditions. Their relation to human disease.Oesophageal striated muscle arrangement and histochemical fibre types in guinea-pig, marmoset, macaque and man.
P2860
Q21090053-25150949-4655-4C1E-A827-F65B1F29F6A5Q24531218-F9C926A9-5B8C-490A-952B-26E87967C6C6Q24536186-ADBBDEDA-C1FA-48DF-9541-832237D0C750Q24538953-CAA8097D-022E-46B8-A94C-0B14E2BFADEFQ24538978-1C1261AC-B631-44A1-82ED-C09016CA2788Q24631228-A869B1B4-2E8E-47F1-A430-B0A58EFCE230Q24646695-26B1620D-D553-4AB0-A918-6488E7FE17E7Q24795341-B1D1D1FA-D2B6-44BC-90BC-7DC9CC24501FQ24802570-7C1FE6BD-3EC7-4C72-B0E5-767A626A12B5Q24814124-D684FFE8-7D33-4E4C-BD6E-3D08233A723EQ26768685-BF58CF36-8A7E-4EE1-B1CB-F6C6559F99A4Q27001582-4D4CF37F-16CB-452D-AE41-C661003F0BBFQ27333872-D7ACECFF-7CC3-4F9C-B342-DAB84F0ABBBBQ28299391-4434D2E5-3875-41FC-A04A-B9814D1BEEE8Q28343388-65BFA9A0-AAB2-417B-B1B8-E2415417B002Q28344054-F2159D12-F9E7-4E66-84B1-375744D61017Q28390788-0ABF14BF-49E6-4340-AB5E-8B232EB3B1A7Q28486378-1A3EBCF8-F5AA-4888-B722-EE30819346B6Q28572813-2C2E118A-A656-403D-B409-C911D6362E6CQ28606532-12AD8716-D67C-4006-82CF-5D0CE0D66715Q28727472-E8C667DE-3216-4A0F-A079-7028584CEF12Q28730042-29109536-FEE8-47DA-895B-01D157C2571CQ28740753-408D72C2-C6C2-4DCB-8A85-CDFB18028E72Q28750416-C6CAE572-1BAD-49A7-9ADF-4E3B6A00ADC6Q28750419-3976D219-5706-4676-98BC-FA9A985818F4Q30442622-D0BE5943-5949-4891-BAE4-C22C39DDCB6EQ30443229-8D3F8ED5-D936-4FDF-9956-CAF556813C90Q30446521-C0C842A5-DA77-4CA8-A398-71FC9BE14684Q30450077-0599C638-E864-4AD4-83D9-6AA7AAA6111FQ30451317-4664423D-1647-4407-BFFC-3B48CA4EE924Q33223141-D2BC38E1-3B9F-46A3-BB4F-E46577A62918Q33290259-6F3EB6B2-11F4-48F0-B666-72B8C3D0FE3AQ33333364-3BD7C7A2-EC77-4D90-9A08-A2BBC896165DQ33604196-E7688055-1DDE-42AA-AEEE-AF1DB69C4521Q33621316-A0EFBC70-1FB7-4C02-A1C2-B568776C9F28Q33725222-57F7B9A0-CB0D-4BB7-8CB2-AB3A6B01B62CQ33751226-180CB8EF-9E4F-4E3D-AF2F-B1DAB93F031DQ33774560-41FCD1C5-4C2D-45F6-B56E-03DD3E6AECA3Q33824704-7729C619-70AD-4BAD-9342-3CD20E13D1A1Q33882436-858EB8CB-9FAF-4156-8246-94253FF599B4
P2860
description
1972 nî lūn-bûn
@nan
1972年の論文
@ja
1972年学术文章
@wuu
1972年学术文章
@zh-cn
1972年学术文章
@zh-hans
1972年学术文章
@zh-my
1972年学术文章
@zh-sg
1972年學術文章
@yue
1972年學術文章
@zh
1972年學術文章
@zh-hant
name
Dynamic properties of mammalian skeletal muscles.
@en
Dynamic properties of mammalian skeletal muscles.
@nl
type
label
Dynamic properties of mammalian skeletal muscles.
@en
Dynamic properties of mammalian skeletal muscles.
@nl
prefLabel
Dynamic properties of mammalian skeletal muscles.
@en
Dynamic properties of mammalian skeletal muscles.
@nl
P1476
Dynamic properties of mammalian skeletal muscles.
@en
P2093
P304
P356
10.1152/PHYSREV.1972.52.1.129
P577
1972-01-01T00:00:00Z