about
Understanding cardiomyopathy phenotypes based on the functional impact of mutations in the myosin motorActomyosin dynamics drive local membrane component organization in an in vitro active composite layerForce per cross-sectional area from molecules to muscles: a general property of biological motors.Three-Dimensional Reconstruction of Tarantula Myosin Filaments Suggests How Phosphorylation May Regulate Myosin ActivityStructural Analysis of Smooth Muscle Tropomyosin and IsoformsThe Myosin Chaperone UNC-45 Is Organized in Tandem Modules to Support Myofilament Formation in C. elegansTargeting the sarcomere to correct muscle functionNon-muscle myosin II takes centre stage in cell adhesion and migrationMyosin filament assembly requires a cluster of four positive residues located in the rod domainSkip residues modulate the structural properties of the myosin rod and guide thick filament assembly.Myosin light chain mono- and di-phosphorylation differentially regulate adhesion and polarity in migrating cells.Two regions of the tail are necessary for the isoform-specific functions of nonmuscle myosin IIBThree-dimensional structure of vertebrate cardiac muscle myosin filaments.Conservation of the regulated structure of folded myosin 2 in species separated by at least 600 million years of independent evolutionStructural basis of the relaxed state of a Ca2+-regulated myosin filament and its evolutionary implications.MHC-IIB filament assembly and cellular localization are governed by the rod net charge.Analysis of tarantula skeletal muscle protein sequences and identification of transcriptional isoformsComparative biomechanics of thick filaments and thin filaments with functional consequences for muscle contraction.Modeling of supramolecular centrosymmetry effect on sarcomeric SHG intensity pattern of skeletal muscles.A molecular model of phosphorylation-based activation and potentiation of tarantula muscle thick filamentsIndependent evolution of striated muscles in cnidarians and bilaterians.Multiple tail domain interactions stabilize nonmuscle myosin II bipolar filaments.The myosin inhibitor blebbistatin stabilizes the super-relaxed state in skeletal muscleHead-head interactions of resting myosin crossbridges in intact frog skeletal muscles, revealed by synchrotron x-ray fiber diffractionModulating Beta-Cardiac Myosin Function at the Molecular and Tissue Levels.PKM2 phosphorylates MLC2 and regulates cytokinesis of tumour cells.The role of the myosin ATPase activity in adaptive thermogenesis by skeletal muscle.Blebbistatin stabilizes the helical order of myosin filaments by promoting the switch 2 closed state.Effects of pathogenic proline mutations on myosin assembly.Spectroscopic Studies of the Super Relaxed State of Skeletal Muscle.An invertebrate smooth muscle with striated muscle myosin filaments.Structural limits on force production and shortening of smooth muscleBig roles for small GTPases in the control of directed cell movement.Novel role for vinculin in ventricular myocyte mechanics and dysfunction.Structure and mechanics of integrin-based cell adhesion.Conserved Intramolecular Interactions Maintain Myosin Interacting-Heads Motifs Explaining Tarantula Muscle Super-Relaxed State Structural Basis.Head-head and head-tail interaction: a general mechanism for switching off myosin II activity in cellsA new de novo missense mutation in MYH2 expands clinical and genetic findings in hereditary myosin myopathies.Myosin II isoforms in smooth muscle: heterogeneity and function.Ablation of cardiac myosin binding protein-C disrupts the super-relaxed state of myosin in murine cardiomyocytes.
P2860
Q26996693-DD810C07-C12A-442A-BEC5-73F8761C3955Q27319811-27F3DC9D-0955-4B9E-A4E1-BF25C31C0F84Q27333872-93DF9996-0BF8-47EF-8DE3-4A6FA82AE4DFQ27652654-5F2A40F4-754F-4622-AC43-42CCBD82D06EQ27675828-76DCDBD5-B904-4411-84F1-1A73906C149EQ27675937-F38FE8D7-274F-498A-A7F5-0034F8E022A9Q28260629-D67B7F3B-1AEF-4126-B875-FEFFF5B0ED53Q28262326-05A44432-0175-47C9-B8C0-F5BD8F785380Q28564731-4039AD0E-32AF-4923-AC92-C3A39A6369F7Q30376388-1D9821CD-B0C7-4208-9C3E-E4876F41643AQ30429688-8F0C5779-FD29-4AB0-9DB6-70B7F7FA397AQ30479025-F8F24582-5C83-4217-9AC4-0A765F0C7E9CQ30481472-01A88238-0F70-420F-ACA5-51DBC2D226FAQ30481755-F2B5F01B-C070-407B-8BE3-0D2161BED2C0Q30540141-316F7145-690E-43DD-9010-16EFDE4CD82DQ33317268-F72F6980-4327-415E-8321-DD06E54AF2A9Q33419717-8DF8A821-A178-4DD5-A173-574E0110FE93Q33960076-C5D1F84B-FCFF-462A-A681-4EFAEACA4CD6Q33964557-3CBD7978-011C-4DF9-970D-35CF0C94AF44Q34035392-F81DF39B-4237-48C9-B1BD-E885C1C912A9Q34286083-F746F9F8-720C-4CF4-8E39-0812FD520495Q34397412-3EBA4355-D2E5-437A-9152-234E58DDD7A2Q34442459-D5CCCA9B-9E80-4A10-9FE8-CB6481FF4CA5Q34533860-04E2C2A9-29DA-481A-A75A-DB0E26C21003Q34549974-DD7E7FE3-3402-48BF-9DC2-9F9B63656138Q34654908-0154ED4A-1F22-4312-84D6-CB8903F6D0FFQ34724649-CCB2B704-C9B0-4AF7-986F-6F73A72E9FBDQ34792046-74F3064A-1A4A-4B84-98E8-891264057A95Q35705666-CBF77883-5AEB-495B-85DA-D49E05F5FBBAQ36091658-7F3BFD08-0F4F-4EB5-9276-965579E4E792Q36207402-938A2638-E76F-4B75-AE50-463875063CEDQ36553159-0C7E11D6-D749-4920-B253-B0E940668109Q36686091-FD712B34-D9B3-45CD-8BEF-C02D5999F15FQ36742744-2F1B9507-7C2C-4713-9A6B-D0C12ECE9DE2Q36744293-81B8062B-067C-485E-8760-20D663C01083Q36782867-AAF10F44-1C51-4B53-8B59-D0EA82DE0AF0Q36796861-4E971EAE-D3BF-4463-9583-4F495B49B122Q36803990-DD421FAA-483C-405A-B0E8-725BFF67181AQ36809519-8BC02351-E9AE-4724-9316-52284822E987Q36885406-9397BB29-C4B4-46AD-A4AA-E2CF7DD6B46A
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Structure and function of myosin filaments.
@ast
Structure and function of myosin filaments.
@en
type
label
Structure and function of myosin filaments.
@ast
Structure and function of myosin filaments.
@en
prefLabel
Structure and function of myosin filaments.
@ast
Structure and function of myosin filaments.
@en
P1476
Structure and function of myosin filaments.
@en
P2093
John L Woodhead
Roger Craig
P304
P356
10.1016/J.SBI.2006.03.006
P577
2006-03-24T00:00:00Z