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Examples of the the word, myosin , in a Sentence Context

The word ( myosin ), is the 13108 most frequently used in English word vocabulary

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  1. Contraction is the sliding filament model of muscle contraction. Action and, myosin ,fibers overlap in a contractile motion towards each other. Myosin filaments
  2. Filaments attach and interact with action filaments to form cross bridges. The, myosin ,heads tilt and drag along the action filament a small distance (10-12 nm). The
  3. Weep" ). In muscles that enter rigor in a contracted position, actin and, myosin ,filaments overlap and cross-bond, resulting in meat that is tough on cooking –
  4. Response to a specific stimulus. In contrast to molecules such as kine sin and, myosin , these nano-machines or molecular machines are constructions like traditional
  5. Troponin. Contraction is initiated by a calcium-regulated phosphorylation of, myosin , rather than a calcium-activated troponin system. Cross bridge cycling causes
  6. Toward the action filaments. Larger structures along the myosin filament called, myosin ,heads are used to provide attachment points on binding sites for the action
  7. Is attached to the plasma membrane along its length by lateral arms made of, myosin ,1a and Ca2+ binding protein calmodulin. Myosin 1a functions through a binding
  8. Quite separately, he developed the mathematical equations for the operation of, myosin ," cross-bridges" that generate the sliding forces between action and myosin
  9. Mutagen - mutation - mutational meltdown - Mutualism (biology) - mycology -, myosin ,N NAD - NADH - NADPH - natural environment - natural selection - nephron -
  10. From ATP, the energy source of the cell. ATP binds to the cross bridges between, myosin ,heads and action filaments. The release of energy powers the swiveling of the
  11. GMP. Cyclic GMP activates protein kinase G, which causes phosphorylation of, myosin ,light chain phosphatase, and therefore inactivation of myosin light-chain
  12. The action filament and relocates to another site on it. After attachment of the, myosin ,head to the action filament, this serine phosphorylation also activates the
  13. Muscle. Activation of myosin heads Cross bridge cycling cannot occur until the, myosin ,heads have been activated to allow cross bridges to form. When the light chains
  14. Molecular clock hypothesis. Figure 1 depicts an uprooted phylogenetic tree for, myosin , a super family of proteins. Both rooted and uprooted phylogenetic trees can be
  15. Kinetics of contraction between tonic and physic smooth muscle. Activation of, myosin ,heads Cross bridge cycling cannot occur until the myosin heads have been
  16. Aguilar2010/> which corresponds to the part of the cross-bridge cycle where the, myosin ,head is unattached to the action filament and relocates to another site on it.
  17. Becomes less efficient. This is due to reduced ability to cross-link action and, myosin ,filaments in over-stretched heart muscle. * A reduced stroke volume, as a
  18. Mortis sets in a few hours after death as ATP is used up, causing action and, myosin ,to combine into rigid acto myosin and lowering the meat's water-holding
  19. Utilizing ATP to produce a molecular conformational change of part of the, myosin ,and produces movement. Movement of the filaments over each other happens when
  20. Downstream effectors (such as the protein kinases ROCK and citron) to promote, myosin ,activation (by influencing the phosphorylation of Myosin regulatory light
  21. Proteins also have structural or mechanical functions, such as action and, myosin ,in muscle and the proteins in the cytoskeleton, which form a system of
  22. Often via kinases and phosphatase. They also generate movement, with, myosin , hydrolyzing ATP to generate muscle contraction and also moving cargo around the
  23. Of myosin " cross-bridges" that generate the sliding forces between action and, myosin ,filaments, which cause the contraction of skeletal muscles. These equations
  24. Time with only little energy utilization. There are differences in the, myosin ,heavy and light chains that also correlate with these differences in
  25. Is primarily of class II in smooth muscle. ) that codes for the heavy chains, myosin ,II, but there are splice variants of this gene that result in four distinct
  26. Separation in the anaphase of mitosis. A contractile ring, made of non-muscle, myosin ,II and action filaments, assembles equatorial (in the middle of the cell) at
  27. Largely structural roles. For instance, movements of the proteins action and, myosin ,ultimately are responsible for the contraction of skeletal muscle. One property
  28. Terminal web’ composed of a complicated set of proteins including spectrum and, myosin ,II. Function Microvilli can act as mechanosensory in kidney proximal tubule.
  29. Receptor channel, which causes the tension-generating interaction of action and, myosin , Darlene interferes with the release of calcium by binding to the anodyne
  30. Sporangium ***skeleton — bone — cartilage — joint — muscle — tendon — action —, myosin ,— reflex ***circulatory system — respiration — lung — heart — artery — vein —
  31. The filaments over each other happens when the globular heads protruding from, myosin ,filaments attach and interact with action filaments to form cross bridges. The
  32. And to stimulate muscle protein synthesis. Protein The motor proteins action and, myosin ,generate the forces exerted by contracting muscles. Current advice says that
  33. Subunits into microfilaments. Filaments near the cell's end interact with, myosin ,which causes contraction. The pseudopodium extends itself until the action
  34. Filament, this serine phosphorylation also activates the Atheist activity of the, myosin ,head region to provide the energy to fuel the subsequent contraction. Name
  35. A conformational change that increases the angle in the neck domain of the, myosin ,heavy chain, name aguilar2010/> which corresponds to the part of the
  36. Heads that project toward the action filaments. Larger structures along the, myosin ,filament called myosin heads are used to provide attachment points on binding
  37. Movement of the intervening strand. They also act as tracks for the movement of, myosin ,molecules that attach to the microfilament and" walk" along them.
  38. Heads and action filaments. The release of energy powers the swiveling of the, myosin ,head. Muscles store little ATP and so must continuously recycle the discharged
  39. A calcium-activated troponin system. Cross bridge cycling causes contraction of, myosin ,and action complexes, in turn causing increased tension along the entire chains
  40. Contraction to occur. The enzyme that phosphorylates the light chains is called, myosin ,light-chain kinase (MLCK),also called MLC20 kinase.
  41. Stored energy into muscle power. The two most abundant fibrillar proteins, myosin ,and action, are responsible for the muscle's overall structure. The remaining
  42. Code HMM. * Heavy mero myosin , a fragment obtained from the muscle protein, myosin ,II following limited proteolytic. * Heroes of Might and Magic (more often
  43. Myosin light-chain kinase, and leads ultimately to the dephosphorylation of the, myosin ,light chain, causing smooth muscle relaxation. Medical use Neonatal and
  44. Volume of the cytoplasm of smooth muscle cells are taken up by the molecules, myosin ,and action, which together have the capability to contract, and,through a chain
  45. The body is unable to complete the cycle and release the coupling between the, myosin ,and action, creating a perpetual state of muscular contraction, until the
  46. Other proteins that serve structural functions are motor proteins such as, myosin , kine sin, and Dylan, which are capable of generating mechanical forces. These
  47. Used to provide attachment points on binding sites for the action filaments. The, myosin ,heads move in a coordinated style, they swivel toward the center of the
  48. Enzymes during decomposition. As part of the process of decomposition,the, myosin ,heads are eaten off by bacteria, allowing the muscle contraction to release and
  49. In bulk. Contraction Smooth muscle contraction is caused by the ripping of, myosin ,and action filaments (a sliding filament mechanism) over each other. The
  50. Of myosin light chain phosphatase, and therefore inactivation of, myosin ,light-chain kinase, and leads ultimately to the dephosphorylation of the myosin

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