Brush border myosin-I structure and ADP-dependent conformational changes revealed by cryoelectron microscopy and image analysis.
about
Association of the leukocyte plasma membrane with the actin cytoskeleton through coiled coil-mediated trimeric coronin 1 molecules.MYO1A (brush border myosin I) dynamics in the brush border of LLC-PK1-CL4 cells.Molecular model of the microvillar cytoskeleton and organization of the brush borderCrystal structure of the motor domain of a class-I myosin.A vertebrate myosin-I structure reveals unique insights into myosin mechanochemical tuning.The myosin power strokeThe myosin cross-bridge cycle and its control by twitchin phosphorylation in catch muscleTransient kinetic analysis of the 130-kDa myosin I (MYR-1 gene product) from rat liver. A myosin I designed for maintenance of tension?Localization of myosin 1b to actin protrusions requires phosphoinositide bindingControl of myosin-I force sensing by alternative splicingOrganization and ligand binding properties of the tail of Acanthamoeba myosin-IA. Identification of an actin-binding site in the basic (tail homology-1) domain.Structural invariance of constitutively active and inactive mutants of acanthamoeba myosin IC bound to F-actin in the rigor and ADP-bound states.The structural basis of muscle contraction.Leveraging the membrane - cytoskeleton interface with myosin-1.In vivo function of class I myosins.Backward movements of cross-bridges by application of stretch and by binding of MgADP to skeletal muscle fibers in the rigor state as studied by x-ray diffraction.The ADP release step of the smooth muscle cross-bridge cycle is not directly associated with force generation.Conformational selection during weak binding at the actin and myosin interface.Molecular motors: force and movement generated by single myosin II molecules.Diversity of structural behavior in vertebrate conventional myosins complexed with actin.Three-dimensional structure of Acanthamoeba castellanii myosin-IB (MIB) determined by cryoelectron microscopy of decorated actin filaments.Myosin II isoforms in smooth muscle: heterogeneity and function.Kinetic characterization of brush border myosin-I ATPase.Removal of the cardiac myosin regulatory light chain increases isometric force productionSubdomain organization of the Acanthamoeba myosin IC tail from cryo-electron microscopy.Motor and tail homology 1 (Th1) domains antagonistically control myosin-1 dynamicsRegulation and control of myosin-I by the motor and light chain-binding domains.Stiffness, working stroke, and force of single-myosin molecules in skeletal muscle: elucidation of these mechanical properties via nonlinear elasticity evaluation.Kinetic adaptation of human Myo19 for active mitochondrial transport to growing filopodia tipsFlexibility within the heads of muscle myosin-2 molecules.Mechanism, regulation, and functional properties of Dictyostelium myosin-1B.Structure of myosin-1c tail bound to calmodulin provides insights into calcium-mediated conformational couplingThe motor protein myosin-I produces its working stroke in two steps
P2860
Q24299245-7EF47ABB-0A5E-4923-A11D-DED58B772D2CQ24537500-0AA733F6-8B26-4BC3-932D-65C9A07DC313Q27334078-2B9DFB1C-B03E-4323-B7EC-E07F7C76F460Q27639035-FA6813DB-F08D-4579-B137-2973C98AC865Q27681483-01BFEEC3-766E-4D47-B5D6-B6F22CDD7A62Q28216645-A2591ECE-6ED2-4075-8977-EAC4EDC81F4EQ28346236-CB396830-FCD6-46F9-A198-C248BB2BD025Q28369644-B96695B1-8F91-4579-8584-C85AF85840C0Q28566730-B6F9A2AA-DD52-4A73-AF41-17790AB4EF32Q28577567-A213709B-5E59-4A02-B2A6-E69AD6447B0AQ30175298-2E33628C-0058-4FDD-AF0B-D7F14C99DF9AQ33573226-1BF7114E-850C-4E92-A450-BE8CC403B390Q33932430-FEB23B10-2175-4AB6-BEEE-522921CE36D9Q33965456-2BCE59BA-7596-44B1-B8B5-CEEF388E483CQ34072884-81FF1471-2D13-488C-BD39-8D0B025B426CQ34170128-2737C849-4F3D-46F3-A702-1247F9C3C1D2Q34170872-C7FDCC4C-0C83-4929-9F1E-A2A1122890CEQ34173878-B279FC17-89BA-45CE-8DE3-EAF9F9426209Q34882785-B864D86D-A89D-44E9-A595-65DCE11DEEDBQ36019382-44BC2196-4E13-4DCB-B0EB-CE324D963BE7Q36255280-C93AB422-3B88-4FC3-824A-DDAC02CBFD84Q36809519-0EC1BA73-5FE1-41DD-83E7-FF5E844BC34FQ36811732-31CAFB74-0A39-4FC2-AB76-6D847EDA3518Q37355373-11B4659E-1E35-4C50-9F46-D266758C6BB9Q37484585-4A6E7A2F-9016-4B6A-90AB-ED6328451D7FQ37621669-F4F6BD29-432C-4A2B-A7E6-D95A684DD74AQ38064119-955932BB-5AC9-4DD1-85D7-61E75FDBAF41Q38107794-5CED9E48-A8F2-40C1-B6C9-89272037C79EQ41048804-EE06AF9D-7924-4F40-A9A8-56AD5176CD18Q41939483-395BAFC6-7F1C-4489-9EE0-AC24625B2451Q48019624-04F57777-245A-4DCE-8755-BE02D9EBA32DQ52159623-59C04E2C-5E7B-4C36-8E8C-21A8F4FD3537Q56894963-3178C985-A004-4A5B-8E28-CD52A83BF442
P2860
Brush border myosin-I structure and ADP-dependent conformational changes revealed by cryoelectron microscopy and image analysis.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
1997年學術文章
@zh
1997年學術文章
@zh-hant
name
Brush border myosin-I structur ...... microscopy and image analysis.
@ast
Brush border myosin-I structur ...... microscopy and image analysis.
@en
type
label
Brush border myosin-I structur ...... microscopy and image analysis.
@ast
Brush border myosin-I structur ...... microscopy and image analysis.
@en
prefLabel
Brush border myosin-I structur ...... microscopy and image analysis.
@ast
Brush border myosin-I structur ...... microscopy and image analysis.
@en
P2860
P356
P1476
Brush border myosin-I structur ...... microscopy and image analysis.
@en
P2093
J D Jontes
R A Milligan
P2860
P304
P356
10.1083/JCB.139.3.683
P407
P577
1997-11-01T00:00:00Z