연구동향 분석

ORIGINAL PAPER : Changes in αB-crystallin, tubulin, and MHC isoforms by hindlimb unloading show different expression patterns in various hindlimb muscles

( Hyun Seok Jee ) ( Taka Shi Skurai ) ( Jae Young Lim ) ( Hideo Hatta ) 2014년

논문상세정보
인용/피인용
' ORIGINAL PAPER : Changes in αB-crystallin, tubulin, and MHC isoforms by hindlimb unloading show different expression patterns in various hindlimb muscles' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • microtubule
  • myosinheavychainisoform
  • skeletal muscle
  • tubulin
  • αb-crystallin
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
104 0

0.0%

' ORIGINAL PAPER : Changes in αB-crystallin, tubulin, and MHC isoforms by hindlimb unloading show different expression patterns in various hindlimb muscles' 의 참고문헌

  • The effect of small molecules in modulating the chaperone activity of alpha B-crystallin against ordered and disordered protein aggregation
    Ecroyd H FEBS J 275 : 935 ~ 947 [2008]
  • The decrease of the cytoskeleton tubulin follows the decrease of the associating molecular chaperone alpha B-crystallin in unloaded soleus muscle atrophy without stretch
    Sakurai T FASEB J 19 : 1199 ~ 1201 [2005]
  • Spaceflight and bone turnover: correlation with a new rat model of weightlessness
    Morey ER BioScience 29 : 168 ~ 172 [1979]
  • Significant roles of microtubules in mature striated muscle deduced from the correlation between tubulin and its molecular chaperone alphaB-crystallin in rat muscles
    Jee H J Physiol Sci 59 : 149 ~ 155 [2009]
  • Role of micortubules in the contractile dysfunction of myocytes from tachycardia-induced dilated cardiomyopathy
    Takahashi M J Mol Cell Cardiol 30 : 1047 ~ 1057 [1998]
  • Rapid muscle atrophy response to unloading: pretranslational processes involving MHC and actin
    Giger JM J Appl Physiol 107 : 1204 ~ 1212 [2009]
  • Nocodazoleinduced changes in microtubule dynamics impair the morphology and directionality of migrating medial ganglionic eminence cells
    Baudoin JP Dev Neurosci 30 : 132 ~ 143 [2008]
  • Muscle energy metabolism: structural and functional features in different types of porcine striated muscles
    Huber K J Muscle Res Cell Motil 28 : 249 ~ 258 [2007]
  • Muscle after spinal cord injury
    Biering-Sorensen B Muscle Nerve 40 : 499 ~ 519 [2009]
  • Microtubules and signal transduction
    Gundersen GG Curr Opin Cell Biol 11 : 81 ~ 94 [1999]
  • Microtubuledependent transport and organization of sarcomeric myosin during skeletal muscle differentiation
    Pizon V EMBO J 24 : 3781 ~ 3792 [2005]
  • Microtubule perturbation retards both the direct and the indirect apical pathway but does not affect sorting of plasma membrane proteins in intestinal epithelial cells (Caco-2)
    Matter K EMBO J 9 : 3163 ~ 3170 [1990]
  • Mechanisms modulating skeletal muscle phenotype
    Blaauw B Compr Physiol 3 : 1645 ~ 1687 [2013]
  • Mechanisms for maintaining muscle
    Banerjee A Curr Opin Support Palliat Care 6 : 451 ~ 456 [2012]
  • Mammalian skeletal muscle fiber type transition
    Pette D Int Rev Cytol 170 : 143 ~ 223 [1997]
  • Isoform switching in myofibrillar and excitationcontraction coupling proteins contributes to diminished contractile function in regenerating rat soleus muscle
    Esposito A J Appl Physiol 102 : 1640 ~ 1648 [2007]
  • Growth and muscle defects in mice lacking adult myosin heavy chain genes
    Acakpo-Satchivi LJ J Cell Biol 139 : 1219 ~ 1229 [1997]
  • Greater hydrogen ion-induced depression of tension and velocity in skinned single fibres of rat fast than slow muscles
    Metzger JM J Physiol 393 : 727 ~ 742 [1987]
  • Fiber-typespecific alpha B-crystallin distribution and its shifts with T(3) and PTU treatments in rat hindlimb muscles
    Atomi Y J Appl Physiol 88 : 1355 ~ 1364 [2000]
  • Effect of hindlimb unweighting and aging on rat semimembranosus muscle and myosin
    Zhong S J Appl Physiol 101 : 873 ~ 880 [2006]
  • Effect of hindlimb suspension on the functional properties of slow and fast soleus fibers from three strains of mice
    Stelzer JE J Appl Physiol 95 : 2425 ~ 2433 [2003]
  • Dynamic microtubules regulate the local concentration of E-cadherin at cell-cell contacts
    Stehbens SJ J Cell Sci 119 : 1801 ~ 1811 [2006]
  • Dynamic instability of microtubule growth
    Mitchison T Nature 312 : 237 ~ 242 [1984]
  • Different levels of TIMPs and MMPs in human lateral and medial rectus muscle tissue excised from strabismic patients
    Kitada M Strabismus 11 : 145 ~ 155 [2003]
  • Conformational and functional differences between recombinant human lens alpha Aand alpha B-crystallin
    Sun TX J Biol Chem 272 : 6220 ~ 6225 [1997]
  • Chaperone activity of alphacrystallins modulates intermediate filament assembly
    Nicholl ID EMBO J 13 : 945 ~ 953 [1994]
  • Chaperone activity of alpha B-crystallin suppresses tubulin aggregation through complex formation
    Arai H Cell Struct Funct 22 : 539 ~ 544 [1997]
  • Cellular and molecular mechanisms of muscle atrophy
    Bonaldo P Dis Model Mech 6 : 25 ~ 39 [2013]
  • Cell signaling pathways to alpha B-crystallin following stresses of the cytoskeleton
    Launay N Exp Cell Res 312 : 3570 ~ 3584 [2006]
  • Autoregulation of tubulin expression is achieved through specific degradation of polysomal tubulin mRNAs
    Pachter JS Cell 51 : 283 ~ 292 [1987]
  • Analysis of skeletal and cardiac muscle from desmin knock-out and normal mice by high resolution separation of myosin heavy-chain isoforms
    Agbulut O Biol Cell 88 : 131 ~ 135 [1996]
  • Alpha-Crystallin stabilizes actin filaments and prevents cytochalasin-induced depolymerization in a phosphorylation-dependent manner
    Wang K Eur J Biochem 242 : 56 ~ 66 [1996]
  • Alpha Bcrystallin-coated MAP microtubule resists nocodazole and calcium-induced disassembly
    Fujita Y J Cell Sci 117 : 1719 ~ 1726 [2004]
  • Alpha B-crystallin maintains skeletal muscle myosin enzymatic activity and prevents its aggregation under heat-shock stress
    Melkani GC J Mol Biol 358 : 635 ~ 645 [2006]
  • Alpha B-crystallin in skeletal muscle: purification and localization
    Atomi Y J Biochem 110 : 812 ~ 822 [1991]
  • Actomyosin contractility and microtubules drive apical constriction in Xenopus bottle cells
    Lee JY Dev Biol 311 : 40 ~ 52 [2007]