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A mathematical model of muscle containing heterogeneous half-sarcomeres exhibits residual force enhancementInteractions between connected half-sarcomeres produce emergent mechanical behavior in a mathematical model of muscleShort-range mechanical properties of skeletal and cardiac musclesHigh-risk long QT syndrome mutations in the Kv7.1 (KCNQ1) pore disrupt the molecular basis for rapid K(+) permeationSLControl: PC-based data acquisition and analysis for muscle mechanics.History-dependent mechanical properties of permeabilized rat soleus muscle fibers.Cycling cross-bridges increase myocardial stiffness at submaximal levels of Ca2+ activation.Distinct growth hormone receptor signaling modes regulate skeletal muscle development and insulin sensitivity in mice.Effective fiber hypertrophy in satellite cell-depleted skeletal muscle.Myocyte contractility can be maintained by storing cells with the myosin ATPase inhibitor 2,3 butanedione monoxime.N-acetylcysteine in handgrip exercise: plasma thiols and adverse reactions.Attenuated sarcomere lengthening of the aged murine left ventricle observed using two-photon fluorescence microscopyDevelopment of dilated cardiomyopathy in Bmal1-deficient miceSatellite cell depletion does not inhibit adult skeletal muscle regrowth following unloading-induced atrophyTemperature and transmural region influence functional measurements in unloaded left ventricular cardiomyocytes.Dynamic coupling of regulated binding sites and cycling myosin heads in striated muscle.Increased myocardial short-range forces in a rodent model of diabetes reflect elevated content of β myosin heavy chain.Impact of myocyte strain on cardiac myofilament activationMechanisms Of Residual Force Enhancement In Skeletal Muscle: Insights From Experiments And Mathematical Models.Cell- and molecular-level mechanisms contributing to diastolic dysfunction in HFpEFFilament compliance effects can explain tension overshoots during force development.Myocardial hypertrophy reduces transmural variation in mitochondrial function.Numerical evaluation of myofiber orientation and transmural contractile strength on left ventricular function.GelBandFitter--a computer program for analysis of closely spaced electrophoretic and immunoblotted bands.Genome-wide expression analysis and EMX2 gene expression in embryonic myoblasts committed to diverse skeletal muscle fiber type fatesTitin isoform changes in rat myocardium during development.TNF-alpha acts via TNFR1 and muscle-derived oxidants to depress myofibrillar force in murine skeletal muscle.Developmental changes in rat cardiac titin/connectin: transitions in normal animals and in mutants with a delayed pattern of isoform transition.Abnormal contractility in human heart myofibrils from patients with dilated cardiomyopathy due to mutations in TTN and contractile protein genes.MyoVision: software for automated high-content analysis of skeletal muscle immunohistochemistry.Super-relaxation helps muscles work more efficiently.A cross-bridge mechanism can explain the thixotropic short-range elastic component of relaxed frog skeletal muscle.Author Correction: Abnormal contractility in human heart myofibrils from patients with dilated cardiomyopathy due to mutations in TTN and contractile protein genesA thixotropic effect in contracting rabbit psoas muscle: prior movement reduces the initial tension response to stretchIdentification of the circadian transcriptome in adult mouse skeletal muscleEffectiveness of sulfur-containing antioxidants in delaying skeletal muscle fatigueMuscle thixotropy-where are we now?
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Q27332523-72FED1F2-6832-4BC2-B6AB-A3FBA37B32F5Q27335237-C74458E7-E45D-461F-B629-52C12C334E0EQ27692693-D27571EC-F0D9-4F9B-A3CA-E28AA637BC3CQ30538295-D8BADF3D-7365-4842-A276-C42482651F51Q30817129-DAAEF75D-85E5-4282-8D0B-DF63412128EBQ34177230-647AA425-C2C7-413C-B113-122EEEAB638BQ34181468-B38D0EE7-D2E1-4472-B4DF-2553D3E412CCQ34245339-5C364F3A-DE41-4270-AC34-0AD4359D2A78Q35154989-E5849ADA-71DF-4C0B-AE98-7C59E9F1F73FQ35908376-9AD5F71F-AB72-4929-93FE-1FFFFA97B88CQ36029026-B97DD212-1911-44EC-8F56-C3DE1BF1CEF6Q36114325-73123E49-708B-4128-B40D-4D4A00ED36A1Q36176071-DDB624E8-2FAC-4FE3-871F-AD970BCC3988Q36312799-2E233FA0-6B24-4011-AD75-FD86B92C243DQ37411103-9CD14D1D-8727-4C41-A885-C037D2C3F8AAQ37601665-5445AD4F-A652-4B57-974C-EB74ABE2F9FAQ37617106-D8E9586F-CB6E-4E56-9782-0B494921F95DQ37853440-C6FEF4DA-BC3E-4E3C-96B8-6B01BE354594Q37969756-76BDE9D6-1D9A-44A6-A802-74470DFAA635Q38441801-59AAD378-D756-4D9E-948A-A3EEB4151854Q39094028-A6CC2140-B911-4C13-974C-A189B05B163DQ39573427-7F4EC9A2-F624-401E-81E8-EB31CDF18E96Q41995586-D450B412-B6D7-481D-A4AB-8512FDFAE782Q42553349-C3649F41-6820-4845-B52A-2D4A5AEBD24CQ42585627-3FD0452A-3471-4528-BE91-61620CB871F4Q45083110-ACCFD9F0-9007-4E18-8C39-92168451E5B6Q46813688-EBB02828-3ECA-4E9E-A25C-24DBE2C19F72Q46954912-23DA581A-4DD6-4696-AD11-195D737A84B0Q47141059-B12ADF03-6E02-47D9-B15B-71F5CCD1845FQ47855007-18728A3F-6C93-428B-A109-BB9BB10D3EAAQ48236015-9D9553AC-F405-403D-9971-1C2277FB1024Q52239908-6496E425-2CDB-4F83-82FF-E25BF469179DQ58700694-909242D0-DB5B-430C-A9D7-86C63311C8D0Q73842623-4960265B-323A-406B-AC45-C5B65CC7D17AQ80433245-BAF28882-5A16-4E6F-AA3C-B46C39B74B50Q82082700-21D7FD1A-E0DA-4452-96BC-B46A08337A7CQ91881681-07734C47-C969-4E03-B2FB-F696F5EB62AA
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Kenneth S Campbell
@ast
Kenneth S Campbell
@en
Kenneth S Campbell
@es
Kenneth S Campbell
@sl
type
label
Kenneth S Campbell
@ast
Kenneth S Campbell
@en
Kenneth S Campbell
@es
Kenneth S Campbell
@sl
prefLabel
Kenneth S Campbell
@ast
Kenneth S Campbell
@en
Kenneth S Campbell
@es
Kenneth S Campbell
@sl
P1053
C-3285-2008
P106
P21
P31
P3829
P496
0000-0001-5615-5958