Поисковый запрос: (<.>A=Petersen, O. H.$<.>) |
Общее количество найденных документов : 40
Показаны документы с 1 по 20
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1.
| Martin S.C. Acetylcholine-evoked increase in Ca{2}{+}-dependent membrane currents is enhanced by the phospholipase A2 inhibitor 4-bromophenacyl bromide in isolated mouse pancreatic acinar cells // J. Physiol., 1993. Vol. 459.-С.347Р
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2.
| Spatial and temporal distribution of agonist-evoked cytoplasmic Ca{2+} signals in exocrine acinar cells analysed by digital image microscopy // EMBO Journal., 1992. Vol. 11, N 4.-С.1623-1629
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3.
| Is an elevated concentration of acinar cytosolic free ionised calcium the trigger for acute pancreatitis? // Lancet, 1995, N 8981.-С.1016-1019
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4.
| Petersen O.H. Inositol trisphosphate and cyclic ADP ribose as long range messengers generating local subcellular calcium signals // J. Physiol., Paris, 1995. Vol. 89, N 3.-С.125-127
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5.
| Petersen O.H. Local cytosolic Ca{2+} signals evoke exocytotic responses in pancreatic acinar cells // J. Physiol. Proc., 1996, N 493.-С.148
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6.
| Intracellular distribution of calmodulin and calcium-calmodulin binding in nucleus and cytoplasm of mouse pancreatic acinar cells // J. Physiol. Proc., 1998. Vol. 506.-С.74
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7.
| Intracellular distribution of calmodulin and calcium-calmodulin binding in nucleus and cytoplasm of mouse pancreatic acinar cells // J. Physiol. Proc., 1998. Vol. 506.-С.74
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8.
| Intracellular glucose inhibits cyclic ADP-ribose, but not inositol trisphosphate-evoked Ca{2+} spiking in mouse pancreatic acinar cells // J. Physiol. Proc., 1998. Vol. 506.-С.72
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9.
| Calcium-calmodulin binding and calmodulin redistribution in pancreatic acinar cells // J. Physiol. Proc., 2000. Vol. 523.-С.29
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10.
| Correlation of NADH and Ca{2+} signals in mouse pancreatic acinar cells // J. Physiol. Proc., 2002. Vol. 539, N 1.-С.415-52
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11.
| Fatty acids, alcohol and fatty acid ethyl esters: Toxic Ca{2+} signal generation and pancreatitis // Cell Calcium, 2009. Vol. 45, N 6.-С.634-642
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12.
| Aberrant Ca{2+} signalling through acidic calcium stores in pancreatic acinar cells // Cell Calcium, 2011. Vol. 50, N 2.-С.193-199
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13.
| The gating of nucleotide-sensitive K+ channels in insulin-secreting cells can be modulated by changes in the ratio ATP{4}~ // J. Membrane Biol., 1988. Vol. 104, N 2.-С.165-177
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14.
| Petersen O.H. Regulation von Kalium-Kanalen in Insulinsezernierenden Zellen // Arzheim.-Forsch.. Vol. 39, N 1А.-С.181-185
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15.
| Effects of inositol polyphosphates on the Ca{2}+-activated K+ current in single perfused mouse lacrimal acinar cells // J. Physiol., 1989. Vol. 410.-С.Р21
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16.
| Galanin activates ATP-sensitive K+ channels via a pertussis toxin-sensitive G-protein in rat insulinoma cells // J. Physiol., 1989. Vol. 410.-С.Р19
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17.
| Petersen O.H. Regulation von Kalium-Kanalen in Insulin-sezernierenden Zellen // Arzneim.- Forsch., 1989. Vol. 39, N 1А.-С.181-185
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18.
| Petersen O.H. Regulation von Kalium-Kanalen in Insulinsezernierenden Zellen // Arzheim.-Forsch., 1989. Vol. 39, N 1 А.-С.181-185
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19.
| Petersen O.H. Inositol trisphosphorothioate evokes repetitive pulses ofho Ca{2}+-activated Clcurrent mimicking the acetylcholine response in isolated mouse pancreatic acinar cells // J. Physiol., 1989. Vol. 415.-С.92Р
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20.
| Vasopressin directly closes ATP-sensitive potassium channels evoking membrane depolarization and an increase in the free intracellular Ca{2}+ concentration in insulin-secreting cells // EMBO Journal, 1989. Vol. 8, N 12.-С.3595-3599
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