about
Intensive training and reduced volume increases muscle FXYD1 expression and phosphorylation at rest and during exercise in athletesUnchanged content of oxidative enzymes in fast-twitch muscle fibers and V˙O2 kinetics after intensified training in trained cyclists.Reduced volume and increased training intensity elevate muscle Na+-K+ pump alpha2-subunit expression as well as short- and long-term work capacity in humans.Effect of speed endurance training and reduced training volume on running economy and single muscle fiber adaptations in trained runners.Muscle variables of importance for physiological performance in competitive football.A preliminary study: effects of football training on glucose control, body composition, and performance in men with type 2 diabetes.Fibre type-specific change in FXYD1 phosphorylation during acute intense exercise in humans.Protein kinase Cα activity is important for contraction-induced FXYD1 phosphorylation in skeletal muscleRelationship between performance at different exercise intensities and skeletal muscle characteristicsReduced volume but increased training intensity elevates muscle Na+-K+ pump α1-subunit and NHE1 expression as well as short-term work capacity in humansAbundance of ClC-1 chloride channel in human skeletal muscle: fiber type specific differences and effect of trainingEffect of dexamethasone on skeletal muscle Na+,K+ pump subunit specific expression and K+ homeostasis during exercise in humansConcurrent speed endurance and resistance training improves performance, running economy, and muscle NHE1 in moderately trained runnersFast-twitch glycolytic skeletal muscle is predisposed to age-induced impairments in mitochondrial functionBeta2 -adrenoceptor agonist salbutamol increases protein turnover rates and alters signalling in skeletal muscle after resistance exercise in young menCycling with blood flow restriction improves performance and muscle K+ regulation and alters the effect of anti-oxidant infusion in humans
P50
Q30353316-09E4C406-D7FE-4692-8B5D-CE936E78E469Q42933251-8292F8AF-5F20-4F1D-A5C5-900AE2825C9FQ43268358-D9AEDBAC-7BE5-49D3-B89B-493D33070B03Q50124707-F49092EC-7DC5-448B-9222-414711782799Q53495482-41542170-98A5-4177-ABE1-ECA99E2389A2Q53752786-504B0327-B5CD-4D6C-B257-60FBB2F2DEE1Q54453379-1C67D7B1-C2FF-49B2-B4E8-2DFEE2D4E1D9Q58171934-0FF85330-AFB0-42BE-B36D-64F2380EB009Q60637772-2010E07D-BFC3-430E-AFAD-FBDDC2B112F0Q60637803-7EB16759-88DE-4435-95B5-AA982A671612Q61427301-B419B715-7FCA-4E79-B771-29EAB0D8FD7DQ80442889-3793B21E-A20E-40D9-BD4E-4377A361B859Q85253986-EDBC7E9A-3482-40EC-95B0-D69631785692Q86035716-86DE8DA6-53CF-4237-81BB-D3EEF8D35EC2Q89397899-0B742F9C-5262-4250-99C0-76BA46400C66Q92186414-00571BD7-B938-4343-9452-6062AF921C95
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Martin Thomassen
@ast
Martin Thomassen
@en
Martin Thomassen
@es
Martin Thomassen
@nl
type
label
Martin Thomassen
@ast
Martin Thomassen
@en
Martin Thomassen
@es
Martin Thomassen
@nl
prefLabel
Martin Thomassen
@ast
Martin Thomassen
@en
Martin Thomassen
@es
Martin Thomassen
@nl
P106
P1153
8528564000
P31
P496
0000-0001-7503-6815