scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1031774875 |
P356 | DOI | 10.1038/173971A0 |
P3181 | OpenCitations bibliographic resource ID | 317236 |
P698 | PubMed publication ID | 13165697 |
P2093 | author name string | R NIEDERGERKE | |
A F HUXLEY | |||
P2860 | cites work | Electron microscope studies of the organisation of the filaments in striated muscle | Q34233721 |
P433 | issue | 4412 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | microscopy | Q1074953 |
P304 | page(s) | 971-3 | |
P577 | publication date | 1954-05-22 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Structural changes in muscle during contraction; interference microscopy of living muscle fibres | |
P478 | volume | 173 |
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Q33932442 | Single-motor mechanics and models of the myosin motor |
Q38845735 | Skeletal muscle disorders of glycogenolysis and glycolysis |
Q33903231 | Skeletal muscle function and fibre types: the relationship between occlusal function and the phenotype of jaw-closing muscles in human |
Q26770571 | Skeletal muscle tissue in movement and health: positives and negatives |
Q38028847 | Skeletal muscle α-actin diseases (actinopathies): pathology and mechanisms. |
Q34047364 | Sliding distance per ATP molecule hydrolyzed by myosin heads during isotonic shortening of skinned muscle fibers |
Q92950627 | Small molecule studies: the fourth wave of muscle research |
Q71714794 | Small-angle X-ray scattering from myosin heads in relaxed and rigor frog skeletal muscles |
Q46610707 | Smooth muscle adherens junctions associated proteins are stable at the cell periphery during relaxation and activation |
Q41079241 | Some aspects of the structural organization of the myofibril as revealed by antibody--staining methods |
Q42955055 | Some observations on the localization of myosin, actin and tropomyosin in the rabbit myofibril |
Q33659435 | Spontaneous oscillatory contraction (SPOC) in cardiomyocytes |
Q38107794 | Stiffness, working stroke, and force of single-myosin molecules in skeletal muscle: elucidation of these mechanical properties via nonlinear elasticity evaluation |
Q27313526 | Still and rotating myosin clusters determine cytokinetic ring constriction. |
Q52433383 | Storage of elastic strain energy in muscle and other tissues |
Q36801067 | Strength-training exercise in dysphagia rehabilitation: principles, procedures, and directions for future research |
Q33293515 | Stress generation and filament turnover during actin ring constriction |
Q49049976 | Stretch and Shortening of Skeletal Muscles Activated Along the Ascending Limb of the Force–Length Relation |
Q45317749 | Striated Muscle Contraction |
Q58994636 | Striation Patterns in Active and Passive Shortening of Muscle |
Q41915028 | Striation patterns of ox muscle in rigor mortis. |
Q78673171 | Structural and Functional Aspects of Myosin |
Q42038135 | Structural and functional reconstitution of thin filaments in the contractile apparatus of cardiac muscle |
Q69047216 | Structural aspects of energy conversion in muscle |
Q72393860 | Structural changes in myosin B during the process of superprecipitation |
Q71099533 | Structure of Limulus telson muscle thick filaments |
Q59050768 | Structure of Smooth Muscles |
Q70483455 | Structure of membranes in crayfish muscle: comparison of phasic and tonic fibres |
Q51373425 | Structure-function relation of the myosin motor in striated muscle. |
Q41912604 | Studies on the cross-striation of the indirect flight myofibrils of the blowfly Calliphora. |
Q41912892 | Studies on the endoplasmic reticulum. III. Its form and distribution in striated muscle cells |
Q41911954 | Studies on the structure of muscle. III. Phase contrast and electron microscopy of dipteran flight muscle |
Q44776727 | Sub-piconewton force fluctuations of actomyosin in vitro |
Q53831720 | Supercontracting striated muscle in a vertebrate. |
Q50974785 | Switching Muscles On and Off in Steps: The McKillop-Geeves Three-State Model of Muscle Regulation. |
Q92776411 | Synchrotron radiation X-ray diffraction studies on muscle: past, present, and future |
Q39451153 | Synergistic protection of MLC 1 against cardiac ischemia/reperfusion-induced degradation: a novel therapeutic concept for the future |
Q33828179 | Systems analysis of biological networks in skeletal muscle function. |
Q35488645 | THE STRUCTURAL BASIS OF THE CONTRACTILE PROCESS IN HEART MUSCLE UNDER PHYSIOLOGICAL AND PATHOLOGICAL CONDITIONS. |
Q33513516 | THE ULTRASTRUCTURE OF MAMMALIAN CARDIAC MUSCLE. |
Q48042367 | TNFα enhances force generation in airway smooth muscle |
Q28553835 | Tension Recovery following Ramp-Shaped Release in High-Ca and Low-Ca Rigor Muscle Fibers: Evidence for the Dynamic State of AMADP Myosin Heads in the Absence of ATP |
Q24540341 | Tension development in highly stretched vertebrate muscle fibres |
Q78912015 | The A and IB and lengths in stretched or contracted horseshoe crab skeletal muscle |
Q47236946 | The Actin Cytoskeleton and Actin-Based Motility |
Q36588116 | The Florey Lecture, 1982 Discovery: accident or design? |
Q34022824 | The Origin of Force in Skeletal Muscle |
Q50058195 | The Work of Titin Protein Folding as a Major Driver in Muscle Contraction. |
Q55000855 | The active force-length relationship is invisible during extensive eccentric contractions in skinned skeletal muscle fibres. |
Q35878575 | The cell as a biomaterial |
Q72239627 | The chicken muscle thick filament: temperature and the relaxed cross-bridge arrangement |
Q92060370 | The discovery of actin: "to see what everyone else has seen, and to think what nobody has thought" |
Q24657559 | The double array of filaments in cross-striated muscle |
Q34324024 | The early history of the biochemistry of muscle contraction |
Q34092008 | The effect of lattice spacing change on cross-bridge kinetics in chemically skinned rabbit psoas muscle fibers. I. Proportionality between the lattice spacing and the fiber width |
Q34041108 | The effect of partial extraction of troponin C on the elementary steps of the cross-bridge cycle in rabbit psoas muscle fibers |
Q70234404 | The effect of the ATP analogue AMPPNP on the structure of crossbridges in vertebrate skeletal muscles: X-ray diffraction and mechanical studies |
Q44741546 | The effect of tropomyosin on force and elementary steps of the cross-bridge cycle in reconstituted bovine myocardium |
Q34093096 | The effect of troponin-tropomyosin on the binding of heavy meromyosin to actin in the presence of ATP. |
Q30481855 | The elastic properties of the structurally characterized myosin II S2 subdomain: a molecular dynamics and normal mode analysis |
Q41751217 | The filament lattice of striated muscle |
Q34759193 | The force-length relationship of the cat soleus muscle |
Q66940467 | The influence of temperature and calcium on the degree of stretch-activation in isolated K-depolarized vascular smooth muscle strips |
Q27020988 | The intriguing dual lattices of the Myosin filaments in vertebrate striated muscles: evolution and advantage |
Q52757824 | The length-tension curve in muscle depends on lattice spacing. |
Q44979345 | The low-angle X-ray diagram of vertebrate striated muscle and its behaviour during contraction and rigor |
Q78892916 | The maximum length for contraction in vertebrate straiated muscle |
Q72540376 | The mechanical properties of cat soleus muscle during controlled lengthening and shortening movements |
Q40124947 | The mechanochemistry of force production in muscle |
Q42008526 | The mechanochemistry of muscular contraction. I. The isometric twitch |
Q38188550 | The modeling of the actomyosin subfragment-1 ATPase activity |
Q39944039 | The molecular basis of contractility. II. |
Q35979482 | The molecular mechanism of force generation in striated muscle |
Q33340751 | The motor mechanism of myosin V: insights for muscle contraction |
Q49898633 | The multiple roles of titin in muscle contraction and force production. |
Q36388526 | The myofilament lattice: studies on isolated fibers. 3. The effect of myofilament spacing upon tension |
Q36192645 | The myofilament lattice: studies on isolated fibers. I. The constancy of the unit-cell volume with variation in sarcomere length in a lattice in which the thin-to-thick myofilament ratio is 6:1 |
Q33793860 | The myosin step size: measurement of the unit displacement per ATP hydrolyzed in an in vitro assay |
Q57825082 | The mysteries of eccentric muscle action |
Q46372232 | The organization of myosin and actin in vertebrate smooth muscle |
Q41825148 | The path to visualization of walking myosin V by high-speed atomic force microscopy |
Q41526396 | The relation between sarcomere length and active tension in isolated semitendinosus fibres of the frog |
Q54133250 | The relations between sarcomere length and characteristics of isometric twitch contractions of frog sartorius muscle |
Q41138437 | The relationship between myofilament packing density and sarcomere length in frog striated muscle |
Q72098069 | The relaxed crossbridge pattern in isolated rabbit psoas muscle thick filaments |
Q35111500 | The role of aqueous interfaces in the cell |
Q35758989 | The role of myosin I and II in cell motility |
Q27334623 | The role of sarcomere length non-uniformities in residual force enhancement of skeletal muscle myofibrils. |
Q42278153 | The role of super-relaxed myosin in skeletal and cardiac muscle |
Q68829599 | The sarcomere length-tension relation determined in short segments of intact muscle fibres of the frog |
Q40741653 | The sarcoplasmic proteins of white muscle of an Antarctic hemoglobin-free fish, Champsocephalus gunnari |
Q79106413 | The shape of the force-elbow angle relationship for maximal voluntary contractions and sub-maximal electrically induced contractions in human elbow flexors |
Q54636640 | The short range stiffness of active mammalian muscle and its effect on mechanical properties. |
Q36718036 | The sliding theory of cytoplasmic streaming: fifty years of progress |
Q66917493 | The structure of a segments from glycerinated skeletal muscle |
Q41912642 | The structure of the smooth muscle fibres in the body wall of the earth worm. |
Q34381354 | The structure of the vertebrate striated muscle thin filament: a tribute to the contributions of Jean Hanson. |
Q27765715 | The three-dimensional structure of a type I module from titin: a prototype of intracellular fibronectin type III domains |
Q46624165 | The time course of creep and stress-relaxation in the guinea-pig's taenia coli under various conditions (author's transl) |
Q80319067 | The time course of early changes in the rate of tension development in electrically-stimulated frog toe muscle: effects of muscle length, temperature and twitch-potentiators |
Q36436996 | The ultrastructure of striated muscle at various sarcomere lengths |
Q74690161 | The ultrastructure of the skeletal muscle myofilaments at various states of shortening |
Q97692705 | The unified myofibrillar matrix for force generation in muscle |
Q72033249 | The variation in active tension with sarcomere length in vertebrate skeletal muscle and its relation to fibre width |
Q24540344 | The variation in isometric tension with sarcomere length in vertebrate muscle fibres |
Q88453324 | Thick Filament Protein Network, Functions, and Disease Association |
Q47298724 | Thick filament size changes in contraction of human muscles |
Q38560206 | Thin Filament Structure and the Steric Blocking Model |
Q37269778 | Thin filament length regulation in striated muscle sarcomeres: pointed-end dynamics go beyond a nebulin ruler |
Q37963344 | Thin filament-reconstituted skinned muscle fibers for the study of muscle physiology. |
Q36206613 | Thin filaments are not of uniform length in rat skeletal muscle |
Q93694489 | Three classes of filaments in cardiac differentiation |
Q36221475 | Three-dimensional image reconstruction of insect flight muscle. I. The rigor myac layer |
Q37457012 | Three-dimensional stochastic model of actin-myosin binding in the sarcomere lattice. |
Q38201073 | Three-dimensional structure of the human myosin thick filament: clinical implications |
Q39638395 | Time-resolved changes in equatorial x-ray diffraction and stiffness during rise of tetanic tension in intact length-clamped single muscle fibers |
Q36288542 | Titin and its associated proteins: the third myofilament system of the sarcomere |
Q41906247 | Titin isoform size is not correlated with thin filament length in rat skeletal muscle |
Q57825076 | Titin-mediated thick filament activation stabilizes myofibrils on the descending limb of their force-length relationship |
Q40820223 | Toward a new concept of cell motility: cytoskeletal dynamics in amoeboid movement and cell division |
Q70514814 | Toward a theory of muscle contraction |
Q36200535 | Transverse sarcomere splitting. A possible means of longitudinal growth in crab muscles |
Q92764055 | Tree of motility - A proposed history of motility systems in the tree of life |
Q47345071 | Tribute to Fumio Oosawa the pioneer in actin biophysics. |
Q84166504 | Turing's next steps: the mechanochemical basis of morphogenesis |
Q72900598 | Two-dimensional time-resolved X-ray diffraction studies of live isometrically contracting frog sartorius muscle |
Q34106998 | Ultrastructural and light microscope studies on rigor-extended sarcomeres in avian and porcine skeletal muscles |
Q35942939 | Ultrastructural and physiologic alterations in ischemic skeletal muscle |
Q79096132 | Ultrastructure of airway smooth muscle |
Q34018213 | Ultrastructure of skeletal muscle fibers studied by a plunge quick freezing method: myofilament lengths |
Q36191919 | Ultrastructure of the Z line of skeletal muscle fibers |
Q41916446 | Ultrastructure of the resting and contracted striated muscle fiber at different degrees of stretch. |
Q80479805 | Understanding muscle from its length |
Q50055224 | Understanding the Science of Resistance Training: An Evolutionary Perspective |
Q36199076 | Unusual thick and thin filament packing in a crustacean muscle |
Q85245238 | Up-and-down movement of a sliding actin filament in the in vitro motility assay |
Q69871794 | Variations in length of heart muscle fibers from sheep after local application of CaCl2, compared with the effect of Mg-, Sr-, Na- and K-chloride |
Q41896574 | Variations of the contractile apparatus in smooth and striated muscles. X-ray diffraction studies at rest and in contraction |
Q36374264 | Water Loss during Contracture of Muscle |
Q41943733 | Water and muscle contraction |
Q89761589 | X-ray Diffraction Studies on the Structural Origin of Dynamic Tension Recovery Following Ramp-Shaped Releases in High-Ca Rigor Muscle Fibers |
Q58989426 | X-ray Diffraction from Contracting Molluscan Muscle |
Q36217679 | X-ray diffraction evidence for the existence of 102.0- and 230.0-nm transverse periodicities in striated muscle |
Q69114922 | X-ray evidence for radial cross-bridge movement and for the sliding filament model in actively contracting skeletal muscle |
Q53903832 | X-ray structure analysis of the thin filament of crab striated muscle in the rigor state. |
Q79102752 | [Electron microscopic research on myotonic muscular dystrophy] |
Q69450794 | [Molecular mechanisms of the contraction of skeletal muscle] |
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