Category:Muscle contraction
process in which force is generated within muscle tissue, resulting in a change in muscle geometry. Force generation involves a chemo-mechanical energy conversion step that is carried out by the actin/myosin complex activity  | |||||
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Pages in category "Category:Muscle contraction"
- Category:A Cholinergic-Regulated Circuit Coordinates the Maintenance and Bi-Stable States of a Sensory-Motor Behavior during Caenorhabditis elegans Male Copulation
- Category:Ideomotor phenomenon
- Category:Isometric contraction
- Category:Myofibrils
- Category:Sliding filament theory
- Category:Tremor
- Category:Vasoconstriction
- File:202107 Mechanism of skeletal muscle contraction.svg
- File:A RESPOSTA DA PERÇEPÇÃO SUBJETIVA DO ESFORÇO DURANTE O EXERCÍCIO RESISTIDO É DEPENDENTE DO TIPO DE AÇÃO MUSCULAR, Journal of Physical Education (3311).pdf
- File:A-Kinematic-Approach-for-Efficient-and-Robust-Simulation-of-the-Cardiac-Beating-Motion-pone.0036706.s001.ogv
- File:A-Kinematic-Approach-for-Efficient-and-Robust-Simulation-of-the-Cardiac-Beating-Motion-pone.0036706.s002.ogv
- File:A-Kinematic-Approach-for-Efficient-and-Robust-Simulation-of-the-Cardiac-Beating-Motion-pone.0036706.s003.ogv
- File:A-Kinematic-Approach-for-Efficient-and-Robust-Simulation-of-the-Cardiac-Beating-Motion-pone.0036706.s004.ogv
- File:A-Mathematical-Model-of-Muscle-Containing-Heterogeneous-Half-Sarcomeres-Exhibits-Residual-Force-pcbi.1002156.s001.ogv
- File:A-Mathematical-Model-of-Muscle-Containing-Heterogeneous-Half-Sarcomeres-Exhibits-Residual-Force-pcbi.1002156.s002.ogv
- File:A-Neuronal-Acetylcholine-Receptor-Regulates-the-Balance-of-Muscle-Excitation-and-Inhibition-in-pbio.1000265.s010.ogv
- File:A-Neuronal-Acetylcholine-Receptor-Regulates-the-Balance-of-Muscle-Excitation-and-Inhibition-in-pbio.1000265.s011.ogv
- File:A-single-muscle-moves-a-crustacean-limb-joint-rhythmically-by-acting-against-a-spring-containing-1741-7007-7-27-S1.ogv
- File:A-single-muscle-moves-a-crustacean-limb-joint-rhythmically-by-acting-against-a-spring-containing-1741-7007-7-27-S2.ogv
- File:Adherent-Primary-Cultures-of-Mouse-Intercostal-Muscle-Fibers-for-Isolated-Fiber-Studies-393740.f2.ogv
- File:Adherent-Primary-Cultures-of-Mouse-Intercostal-Muscle-Fibers-for-Isolated-Fiber-Studies-393740.f3.ogv
- File:Adherent-Primary-Cultures-of-Mouse-Intercostal-Muscle-Fibers-for-Isolated-Fiber-Studies-393740.f4.ogv
- File:Allosteric-Communication-in-Myosin-V-From-Small-Conformational-Changes-to-Large-Directed-Movements-pcbi.1000129.s001.ogv
- File:Allosteric-Communication-in-Myosin-V-From-Small-Conformational-Changes-to-Large-Directed-Movements-pcbi.1000129.s002.ogv
- File:Anaesthetic-Tricaine-Acts-Preferentially-on-Neural-Voltage-Gated-Sodium-Channels-and-Fails-to-Block-pone.0103751.s001.ogv
- File:Análise eletromiográfica dos músculos posteriores da coxa na cadeira e mesa flexora, Journal of Physical Education (8328).pdf
- File:Arrhythmogenic-effects-of-mutated-L-type-Ca2+-channels-on-an-optogenetically-paced-muscular-pump-in-srep14427-s2.ogv
- File:Ciclo utilizzo Fosfocreatina nel Muscolo.jpg
- File:LL-Q1860 (eng)-Vealhurl-contraction.wav
- File:Contraction chem114a.jpg
- File:Direct-optical-activation-of-skeletal-muscle-fibres-efficiently-controls-muscle-contraction-and-ncomms9506-s2.ogv
- File:Efeito da velocidade de contração na fase excêntrica sobre a percepção subjetiva de esforço, Journal of Physical Education (47188).pdf
- File:Effects-of-Mechanical-Over-Loading-on-the-Properties-of-Soleus-Muscle-Fibers-with-or-without-Damage-pone.0034557.s001.ogv
- File:Effects-of-Mechanical-Over-Loading-on-the-Properties-of-Soleus-Muscle-Fibers-with-or-without-Damage-pone.0034557.s002.ogv
- File:Fusimotor action.jpg
- File:High-frequency-irreversible-electroporation-(H-FIRE)-for-non-thermal-ablation-without-muscle-1475-925X-10-102-S1.ogv
- File:Human-Engineered-Heart-Tissue-as-a-Versatile-Tool-in-Basic-Research-and-Preclinical-Toxicology-pone.0026397.s004.ogv
- File:Human-Engineered-Heart-Tissue-as-a-Versatile-Tool-in-Basic-Research-and-Preclinical-Toxicology-pone.0026397.s005.ogv
- File:Increased-Muscle-Stress-Sensitivity-Induced-by-Selenoprotein-N-Inactivation-in-Mouse-A-Mammalian-pone.0023094.s006.ogv
- File:Isokinetics gesture - Wrestling Revue - October 1973 backcover (cropped).jpg
- File:Large-Isoforms-of-UNC-89-(Obscurin)-Are-Required-for-Muscle-Cell-Architecture-and-Optimal-Calcium-pone.0040182.s004.ogv
- File:Large-Isoforms-of-UNC-89-(Obscurin)-Are-Required-for-Muscle-Cell-Architecture-and-Optimal-Calcium-pone.0040182.s005.ogv
- File:Large-Isoforms-of-UNC-89-(Obscurin)-Are-Required-for-Muscle-Cell-Architecture-and-Optimal-Calcium-pone.0040182.s006.ogv
- File:Large-Isoforms-of-UNC-89-(Obscurin)-Are-Required-for-Muscle-Cell-Architecture-and-Optimal-Calcium-pone.0040182.s007.ogv
- File:MEDYAN-Mechanochemical-Simulations-of-Contraction-and-Polarity-Alignment-in-Actomyosin-Networks-pcbi.1004877.s007.ogv
- File:MEDYAN-Mechanochemical-Simulations-of-Contraction-and-Polarity-Alignment-in-Actomyosin-Networks-pcbi.1004877.s008.ogv
- File:MEDYAN-Mechanochemical-Simulations-of-Contraction-and-Polarity-Alignment-in-Actomyosin-Networks-pcbi.1004877.s009.ogv
- File:MEDYAN-Mechanochemical-Simulations-of-Contraction-and-Polarity-Alignment-in-Actomyosin-Networks-pcbi.1004877.s010.ogv
- File:Motility cartoon type 10b.jpg
- File:Motor Unit.png
- File:Muscle conraction curve japanese.svg
- File:Muscle contraction curve phrase japanese.svg
- File:Neuromuscular-organization-and-aminergic-modulation-of-contractions-in-the-Drosophila-ovary-1741-7007-4-17-S1.ogv
- File:Non-Invasive-In-Vivo-Imaging-of-Calcium-Signaling-in-Mice-pone.0000974.s001.ogv
- File:Non-Invasive-In-Vivo-Imaging-of-Calcium-Signaling-in-Mice-pone.0000974.s002.ogv
- File:Non-Invasive-In-Vivo-Imaging-of-Calcium-Signaling-in-Mice-pone.0000974.s003.ogv
- File:Non-Invasive-In-Vivo-Imaging-of-Calcium-Signaling-in-Mice-pone.0000974.s004.ogv
- File:Non-Invasive-In-Vivo-Imaging-of-Calcium-Signaling-in-Mice-pone.0000974.s005.ogv
- File:Novel-Insights-into-the-Echinoderm-Nervous-System-from-Histaminergic-and-FMRFaminergic-Like-Cells-pone.0044220.s001.ogv
- File:Novel-Insights-into-the-Echinoderm-Nervous-System-from-Histaminergic-and-FMRFaminergic-Like-Cells-pone.0044220.s002.ogv
- File:Optogenetic-control-of-contractile-function-in-skeletal-muscle-ncomms8153-s1.ogv
- File:Optogenetic-control-of-contractile-function-in-skeletal-muscle-ncomms8153-s2.ogv
- File:Optogenetic-control-of-contractile-function-in-skeletal-muscle-ncomms8153-s3.ogv
- File:Optogenetic-control-of-contractile-function-in-skeletal-muscle-ncomms8153-s4.ogv
- File:Optogenetic-induction-of-contractile-ability-in-immature-C2C12-myotubes-srep08317-s2.ogv
- File:Optogenetic-induction-of-contractile-ability-in-immature-C2C12-myotubes-srep08317-s3.ogv
- File:PI3Ks-Maintain-the-Structural-Integrity-of-T-Tubules-in-Cardiac-Myocytes-pone.0024404.s004.ogv
- File:PI3Ks-Maintain-the-Structural-Integrity-of-T-Tubules-in-Cardiac-Myocytes-pone.0024404.s005.ogv
- File:Sarcomeric-Pattern-Formation-by-Actin-Cluster-Coalescence-pcbi.1002544.s002.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s006.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s007.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s008.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s009.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s011.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s012.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s013.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s014.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s015.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s016.ogv
- File:Self-Organization-of-Muscle-Cell-Structure-and-Function-pcbi.1001088.s017.ogv
- File:Sliding Filament Mechanism Diagram.pdf
- File:Sliding Filament Theory.svg
- File:Small-intestinal-model-for-electrically-propelled-capsule-endoscopy-1475-925X-10-108-S2.ogv
- File:Smooth-Muscle-Strips-for-Intestinal-Tissue-Engineering-pone.0114850.s001.ogv
- File:Smooth-Muscle-Strips-for-Intestinal-Tissue-Engineering-pone.0114850.s002.ogv
- File:Smooth-Muscle-Strips-for-Intestinal-Tissue-Engineering-pone.0114850.s003.ogv
- File:Smooth-Muscle-Strips-for-Intestinal-Tissue-Engineering-pone.0114850.s004.ogv
- File:Smooth-Muscle-Strips-for-Intestinal-Tissue-Engineering-pone.0114850.s005.ogv
- File:The-UNC-45-Chaperone-Is-Critical-for-Establishing-Myosin-Based-Myofibrillar-Organization-and-pone.0022579.s008.ogv
- File:The-UNC-45-Chaperone-Is-Critical-for-Establishing-Myosin-Based-Myofibrillar-Organization-and-pone.0022579.s009.ogv
- File:The-UNC-45-Chaperone-Is-Critical-for-Establishing-Myosin-Based-Myofibrillar-Organization-and-pone.0022579.s010.ogv
- File:The-UNC-45-Chaperone-Is-Critical-for-Establishing-Myosin-Based-Myofibrillar-Organization-and-pone.0022579.s011.ogv
- File:Twitch vs unfused tetanus vs fused tetanus.png
- File:When-Age-Matters-Differences-in-Facial-Mimicry-and-Autonomic-Responses-to-Peers-Emotions-in-pone.0110763.s001.ogv
- File:When-Age-Matters-Differences-in-Facial-Mimicry-and-Autonomic-Responses-to-Peers-Emotions-in-pone.0110763.s002.ogv
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