| 1 - 12 |
Adenosine triphosphate-linked concentration of calcium ions in a particulate fraction of rabbit muscle
Ebashi S, Lipmann F |
| 13 - 14 |
A new protein factor promoting aggregation of tropomyosin
Ebashi S, Kodama A |
| 15 - 27 |
Traponin
Ebasai S, Kodama A, Ebashi F |
| 28 - 29 |
A tribute to Dr. Setsuro Ebashi
Carafoli E, Klee CB |
| 30 - 33 |
Calcium ion and tiroponin: Professor S. Ebashi's epoch-making achievement
Endo M |
| 34 - 42 |
Memories of early work on muscle contraction and regulation in the 1950's and 1960's
Huxley HE |
| 43 - 48 |
Background to the discovery of troponin and Setsuro Ebashi's contribution to our knowledge of the mechanism of relaxation in striated muscle
Perry SV |
| 49 - 51 |
Key events in the history of calcium regulation of striated muscle
Gergely J |
| 52 - 56 |
A period of convergence in the studies on muscle contraction and relaxation: The Ebashi's contribution
Muscatello U |
| 57 - 61 |
From Ca2+ in muscle contraction to IP3 receptor/Ca2+ signaling in memory of Setsuro Ebashi
Mikoshiba K |
| 62 - 73 |
Troponin: Regulatory function and disorders
Ohtsuki I, Morimoto S |
| 74 - 81 |
Troponin and cardiomyopathy
Chang AN, Parvatiyar MS, Potter JD |
| 82 - 87 |
The unique functions of cardiac troponin I in the control of cardiac muscle contraction and relaxation
Solaro RJ, Rosevear P, Kobayashi T |
| 88 - 99 |
Interaction of cardiac troponin with cardiotonic drugs: A structural perspective
Li MX, Robertson IM, Sykes BD |
| 100 - 108 |
Structural changes of the regulatory proteins bound to the thin filaments in skeletal muscle contraction by X-ray fiber diffraction
Sugimoto Y, Takezawa Y, Matsuo T, Ueno Y, Minakata S, Tanaka H, Wakabayashi K |
| 109 - 114 |
Spectroscopic and ITC study of the conformational change upon Ca2+-binding in TnC Globe and TO peptide complex from Akazara scallop striated muscle
Yumoto F, Tanaka H, Nagata K, Miyauchi Y, Takuya MA, Ojima T, Tanokura M |
| 115 - 123 |
Thiol reactivity as a sensor of rotation of the converter in myosin
Onishi H, Nitanai Y |
| 124 - 134 |
The B2 alternatively spliced isoform of nonmuscle myosin II-B lacks actin-activated MgATPase activity and in vitro motility
Kim KY, Kawamoto S, Bao JJ, Sellers JR, Adelstein RS |
| 135 - 143 |
Role of non-kinase activity of myosin light-chain kinase in regulating smooth muscle contraction, a review dedicated to Dr. Setsuro Ebashi
Nakamura A, Xie C, Zhang Y, Gao Y, Wang HH, Ye LH, Kishi H, Okagaki T, Yoshiyama S, Hayakawa K, Ishikawa R, Kohama K |
| 144 - 148 |
The unit event of sliding of the chemo-mechanical enzyme composed of myosin and actin with regulatory proteins
Oosawa F |
| 149 - 156 |
Myosin phosphatase target subunit: Many roles in cell function
Matsumura F, Hartshorne DJ |
| 157 - 164 |
Regulation of the function of mammalian myosin and its conformational change
Ikebe M |
| 165 - 175 |
How are the cellular functions of myosin V1 regulated within the cell?
Buss F, Kendrick-Jones J |
| 176 - 181 |
Calcium and cargoes as regulators of myosin 5a activity
Sellers JR, Thirumurugan K, Sakamoto T, Hammer JA, Knight PJ |
| 182 - 187 |
The Ca2+ ATPase of cardiac sarcoplasmic reticulum: Physiological role and relevance to diseases
Inesi G, Prasad AM, Pilankatta R |
| 188 - 194 |
Interaction sites among phospholamban, sarcolipin, and the sarco(endo)plasmic reticulum Ca2+-ATPase
Morita T, Hussain D, Asahi M, Tsuda T, Kurzydlowski K, Toyoshima C, MacLennan DH |
| 195 - 207 |
Personal recollections on the discovery of the ryanodine receptors of muscle
Fleischer S |
| 208 - 212 |
Distinct mechanisms for dysfunctions of mutated ryanodine receptor isoforms
Ogawa Y |
| 213 - 219 |
Predominant role of type 1 IP3 receptor in aortic vascular muscle contraction
Zhou H, Nakamura T, Matsumoto N, Hisatsune C, Mizutani A, Iesaki T, Daida H, Mikoshiba K |
| 220 - 224 |
Identification of new functions of Ca2+ release from intracellular stores in central nervous system
Iino M |
| 225 - 239 |
Infrared spectroscopic study of the metal-coordination structures of calcium-binding proteins
Nara M, Tanokura M |
| 240 - 246 |
Biophysical characterization of the EF-hand and SAM domain containing Ca2+ sensory region of STIM1 and STIM2
Zheng L, Stathopulos PB, Li GY, Ikura M |
| 247 - 264 |
Calcium, troponin, calmodulin, S100 proteins: From myocardial basics to new therapeutic strategies
Schaub MC, Heizmann CW |
| 265 - 269 |
Heat production by skeletal muscles of rats and rabbits and utilization of glucose 6-phosphate as ATP regenerative system by rats and rabbits heart Ca2+-ATPase
Ketzer LA, De Mels L |
| 270 - 276 |
Which skeletal myoblasts and how to be transplanted for cardiac repair?
Tezuka A, Kawada T, Nakazawa M, Masui F, Konno S, Nitta SI, Toyo-Oka T |
