about
P279
Brugada syndromeAcute kidney injury biomarkers: renal angina and the need for a renal troponin IThe role of exercise-induced myokines in muscle homeostasis and the defense against chronic diseasesCardiac troponin mutations and restrictive cardiomyopathy'Medusa-head ataxia': the expanding spectrum of Purkinje cell antibodies in autoimmune cerebellar ataxia. Part 1: Anti-mGluR1, anti-Homer-3, anti-Sj/ITPR1 and anti-CARP VIIIThe forces behind cell movementThe ADF/cofilin family: actin-remodeling proteins.The actin gene family: function follows isoformBioactive peptides from muscle sources: meat and fishActin in dendritic spines: connecting dynamics to functionTroponin elevation in conditions other than acute coronary syndromesThe art of cellular communication: tunneling nanotubes bridge the divideHow are the cellular functions of myosin VI regulated within the cell?Kinesin-II, a membrane traffic motor in axons, axonemes, and spindlesChaperonin-mediated folding of actin and tubulinEffects of cytochalasin and phalloidin on actinActing like actin. The dynamics of the nematode major sperm protein (msp) cytoskeleton indicate a push-pull mechanism for amoeboid cell motilityNanotubes make big scienceChaotic actin.Dystrophins and dystrobrevins.Novel myosin-based therapies for congenital cardiac and skeletal myopathiesThe emerging role of viral vectors as vehicles for DMD gene editingRegulation of the Postsynaptic Compartment of Excitatory Synapses by the Actin Cytoskeleton in Health and Its Disruption in DiseaseMyosins as fundamental components during tumorigenesis: diverse and indispensableMolecular and Cellular Mechanisms of Shigella flexneri Dissemination.Regulation of actin nucleation and autophagosome formationMyosins, Actin and AutophagyRegulation of mTORC1 by growth factors, energy status, amino acids and mechanical stimuli at a glanceActomyosin ring driven cytokinesis in budding yeastPrognostic Indications of Elevated MCT4 and CD147 across Cancer Types: A Meta-AnalysisCardiac Troponins in Dogs and CatsThe Chemical Biology of Human Metallo-β-Lactamase Fold ProteinsThe clinical and genetic heterogeneity of paroxysmal dyskinesias.Non-muscle myosin II in disease: mechanisms and therapeutic opportunitiesGenetic Engineering of Dystroglycan in Animal Models of Muscular DystrophyActin in herpesvirus infectionMisfolding and amyloid aggregation of apomyoglobinMetabolic disturbance in PCOS: clinical and molecular effects on skeletal muscle tissuePre-clinical drug tests in the mdx mouse as a model of dystrophinopathies: an overviewTropomodulin capping of actin filaments in striated muscle development and physiology
P921
Q21203035-82BE689B-484B-4862-884F-4CA5FA09A2CAQ21245256-2255441A-BA81-4418-B558-516609042E89Q21296864-5351D2D3-63EC-4935-A6FF-2194711F52AEQ21328674-77580822-C00F-405D-90C2-C9145DBCCD62Q22000623-67018C61-DBAF-467D-92C9-508C2B11D11BQ22305351-2AFC4F15-1EA9-4161-B550-1379E149FEE8Q24544149-561B0FD1-1D8E-486D-BD0C-9391B3D87BE8Q24595442-09E768DF-AB06-4D32-9F31-F566CBD3D4BBQ24610066-806BB4F2-715C-4DB9-99C3-678C51C9E1E7Q24611930-7C51BCC2-B52C-40E7-9928-F5BC5880B11BQ24630238-34F380E7-0F58-44B6-AF35-E4E7097757E7Q24645586-42A28ED0-98E2-49AF-80F5-F8D08FB9CC8FQ24658390-0420D3A3-2159-434A-AFEC-06FE90BEABBDQ24671932-C05C5FB5-897B-4B8F-A53A-1E1E52D80092Q24672216-9706B24B-07C0-4E05-9D9C-9B597880DCA4Q24680210-189C35EF-5F49-45DB-9989-0B3F7581A60CQ24685977-4C5E5956-00D9-4B47-81BB-2406A5571782Q24803001-692612FC-18A2-4BD5-B604-6D9DB1303728Q24804290-A0392888-1066-4DC7-9FF7-A8801FAE0D6DQ24805434-B9030116-3EFE-4E47-A5F1-5987D3F60260Q26740449-BA3B259E-CADC-4ACE-AA91-46B1FF7BAB67Q26746647-53F16274-0913-42CE-8CB9-7F41BB939D83Q26748973-D0220D84-48F3-409B-83C2-03CDAE6D6FC5Q26749344-8D26F11C-17CC-47ED-814D-DBE0D1E9B83AQ26750855-013B00F9-DA25-4F87-A018-A6E0C738D1FBQ26752773-9DE95FFB-D898-4A17-801A-BFD0523BFD1EQ26752776-458CAF16-E449-4577-B750-C8A743331B28Q26764871-EABCE178-37B7-4B35-8D6E-03021F8D5C0FQ26769040-A4933C56-5A63-4803-AFB1-7A568EEBCF54Q26771312-1CDA9D96-D03C-4035-8034-6F9111167F6BQ26774969-3AC1A4E8-D693-4EA9-A260-248C6D6808ACQ26775167-A4F0F9FC-5C43-48D6-9CAC-BEEF34F6D28CQ26776399-A01C0AF5-6D9E-478B-AC34-DD43E6ECF7A8Q26778962-2F0C4420-4661-44A7-9B1F-F9FD6B26D5ABQ26783980-7383E48F-890C-4233-AB09-E5441D2605AEQ26823346-2B637EEB-2483-4D2B-9376-2A5195E1C3E1Q26830356-9B4512A2-CF16-4A98-96C1-30638CFE6825Q26830631-AFA38D02-43D6-4D78-9132-8A55BFFD7F9FQ26849430-C261B479-985E-473F-9010-C5349D86206CQ26852179-345735E3-005B-4211-9983-AA8935FD1C87
P921
description
proteins which participate in contractile processes
@en
name
contractile proteins
@en
protéine contractile
@fr
type
label
contractile proteins
@en
protéine contractile
@fr
altLabel
Contractile Protein
@en
prefLabel
contractile proteins
@en
protéine contractile
@fr
P486
P672
P279
P486
P672
D12.776.210