The low-angle x-ray diagram of vertebrate striated muscle and its behaviour during contraction and rigor.
about
Erythrocyte adducin: a calmodulin-regulated actin-bundling protein that stimulates spectrin-actin bindingMemories of Hugh E. Huxley (1924-2013)The intriguing dual lattices of the Myosin filaments in vertebrate striated muscles: evolution and advantageStructural changes in isometrically contracting insect flight muscle trapped following a mechanical perturbationThree-Dimensional Structure of Vertebrate Muscle Z-Band: The Small-Square Lattice Z-Band in Rat Cardiac Muscle.Three-Dimensional Reconstruction of Tarantula Myosin Filaments Suggests How Phosphorylation May Regulate Myosin ActivityAdenosine triphosphate-induced sliding of tubules in trypsin-treated flagella of sea-urchin spermFifty years of muscle and the sliding filament hypothesisEffects of C-protein on synthetic myosin filament structure.Alpha 1(E)-catenin is an actin-binding and -bundling protein mediating the attachment of F-actin to the membrane adhesion complexUnderstanding the organisation and role of myosin binding protein C in normal striated muscle by comparison with MyBP-C knockout cardiac muscleRemembrance of Hugh E. Huxley, a founder of our fieldThe ultrastructural location of C-protein, X-protein and H-protein in rabbit muscleDistinct structural changes detected by X-ray fiber diffraction in stabilization of F-actin by lowering pH and increasing ionic strengthUse of fluorescence polarization to observe changes in attitude of S-1 moieties in muscle fibers.Alteration of myosin cross bridges by phosphorylation of myosin-binding protein C in cardiac muscleSingle molecule kinetic analysis of actin filament capping. Polyphosphoinositides do not dissociate capping proteinsObituary: Professor Gerald Elliott.X-ray diffraction pattern from the flight muscle of Toxorhynchites towadensis reveals the specific phylogenic position of mosquito among Diptera.Three-dimensional structure of vertebrate cardiac muscle myosin filaments.Structure/function analysis of the interaction of phosphatidylinositol 4,5-bisphosphate with actin-capping protein: implications for how capping protein binds the actin filamentStructural changes in muscle crossbridges accompanying force generation.Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle.Polarized fluorescence depletion reports orientation distribution and rotational dynamics of muscle cross-bridges.A method for 3D-reconstruction of a muscle thick filament using the tilt series images of a single filament electron tomogramThe structure of isolated cardiac Myosin thick filaments from cardiac Myosin binding protein-C knockout mice.Visualization of cardiac muscle thin filaments and measurement of their lengths by electron tomographyStructural dynamics of frog muscle during isometric contraction.Sarcomere lengthening and tension drop in the latent period of isolated frog skeletal muscle fibersEffect of thin filament length on the force-sarcomere length relation of skeletal muscle.Zebrafish cardiac muscle thick filaments: isolation technique and three-dimensional structure.Cytoplasmic actin: purification and single molecule assembly assays.Ultrastructural changes in atrial myocardium of the ageing ratAvoiding artefacts when counting polymerized actin in live cells with LifeAct fused to fluorescent proteins.X-ray diffraction studies of cross-bridges weakly bound to actin in relaxed skinned fibers of rabbit psoas muscle.Temperature-induced structural changes in the myosin thick filament of skinned rabbit psoas musclePast, present and future experiments on muscle.Ultrastructure of skeletal muscle fibers studied by a plunge quick freezing method: myofilament lengthsX-ray diffraction measurements of the extensibility of actin and myosin filaments in contracting muscleX-ray diffraction evidence for the extensibility of actin and myosin filaments during muscle contraction
P2860
Q24299629-92317118-1A99-4BD8-BD9B-B72C81A4C2A7Q24622565-2AF4B5B3-199F-41C5-9AB4-3768458BE455Q27020988-4BCA325A-0830-4E94-B25A-0F22CD17748EQ27300827-022D219C-BB0A-41A3-8722-0588E2AD65F9Q27309649-1925E622-5A0E-49ED-A80A-E3ADC4E07C07Q27652654-AC2586D0-70DC-4B31-8919-A077615FADACQ28251355-EDBC31F6-712D-42CC-8E73-BFA77C3908FEQ28254837-5F4D1B06-F7E8-41AB-A67E-30802D607828Q28267323-B71BB417-B3AE-4213-AC47-2E78E7D884C7Q28289996-610611F3-239F-4379-8CE6-0A3A8ABC929CQ28295237-2A93B22B-21A8-4ACA-AB60-FD1668D3DBF3Q28299985-A460E666-D43D-4D93-A760-3D2FD67C9102Q28300264-7FDE04D6-CD8C-4232-8E84-8EDBB1188820Q28346302-61ED4A24-C8BE-49BE-B5E4-3C5B8986BE8BQ28362764-122C3BDF-51A3-483A-A705-FA07845FA387Q28565890-90D24907-F794-4014-AAB5-96E28219E661Q28585296-FA488555-A9BD-40C1-9E90-B087FB4AA899Q30352123-B0B9CDA2-37BF-4D91-8843-EEA90F99D7BDQ30398184-06DD4A84-CF76-4271-BB19-EDD4EF55ACF3Q30481472-F17270E9-EE96-4093-9F71-B9F101174721Q30484588-A94313DE-D4F4-4C23-928E-B8DF739DEB66Q30494559-B1E5B521-E319-4724-B286-E9DEE460B7C7Q30502467-31D595B0-EA1F-4A3E-9F7F-9FB16B31C55DQ30539061-54E2B2EC-E7AC-4BE5-A228-2B043C3097A8Q30584186-CDE2345A-310F-43E3-93C7-A64BDE8B25BCQ30836255-15DDD499-1000-4A91-BA98-3AE793A60DA3Q30851629-07B8B620-208F-4644-8C0F-67DB50AD336DQ30870352-42FEFF1F-2420-404F-B585-558DD17F2D71Q32066387-0B9E3920-8EEC-4387-B6EF-A9FCB91C45F1Q33548054-557DDDC1-374E-4757-BB0F-5ABB2E097CCAQ33561540-C1E29082-BA7F-4879-BC10-DF1D7D61BFFFQ33581477-52BC72F4-21F6-4FB1-9CC9-258124885C9CQ33882121-245F8017-1413-40F1-8C06-8566C2661B5CQ33902243-5ED25C33-7634-40D1-973D-FCE632D009E8Q33907714-97CB85C7-0BBB-42E7-8949-0EAF18FC7836Q33907720-421C0D3B-0F45-4080-A446-DA6A55DD361DQ33932488-72097926-83CA-4943-A1B0-B2D90365392AQ34018213-76A177DE-5CF8-4DF2-B06D-84170F03A015Q34019085-2F5F063B-EA6E-47A4-9C1D-54D813FBB050Q34019091-E2D46704-0129-49B5-A555-578C10BC151B
P2860
The low-angle x-ray diagram of vertebrate striated muscle and its behaviour during contraction and rigor.
description
1967 nî lūn-bûn
@nan
1967年の論文
@ja
1967年学术文章
@wuu
1967年学术文章
@zh
1967年学术文章
@zh-cn
1967年学术文章
@zh-hans
1967年学术文章
@zh-my
1967年学术文章
@zh-sg
1967年學術文章
@yue
1967年學術文章
@zh-hant
name
The low-angle x-ray diagram of ...... during contraction and rigor.
@en
The low-angle x-ray diagram of ...... during contraction and rigor.
@nl
type
label
The low-angle x-ray diagram of ...... during contraction and rigor.
@en
The low-angle x-ray diagram of ...... during contraction and rigor.
@nl
prefLabel
The low-angle x-ray diagram of ...... during contraction and rigor.
@en
The low-angle x-ray diagram of ...... during contraction and rigor.
@nl
P1476
The low-angle x-ray diagram of ...... during contraction and rigor.
@en
P2093
P304
P356
10.1016/S0022-2836(67)80046-9
P407
P577
1967-12-01T00:00:00Z