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Results:
1-15
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Results: 15
Authors:
Wolvekamp, MCJ
Cleary, ML
Cox, SL
Shaw, JM
Jenkin, G
Trounson, AO
Citation: Mcj. Wolvekamp et al., Follicular development in cryopreserved Common Wombat ovarian tissue xenografted to Nude rats, ANIM REPROD, 65(1-2), 2001, pp. 135-147
Authors:
Cox, SL
Macdonald, JA
Citation: Sl. Cox et Ja. Macdonald, Temperature compensation of postsynaptic currents from the extraocular muscle of temperate teleost fishes, J COMP PH A, 187(3), 2001, pp. 197-203
Authors:
Norenberg, W
Gobel, I
Meyer, A
Cox, SL
Starke, K
Trendelenburg, AU
Citation: W. Norenberg et al., Stimulation of mouse cultured sympathetic neurons by uracil but not adenine nucleotides, NEUROSCIENC, 103(1), 2001, pp. 227-236
Authors:
Schelb, V
Gobel, I
Khairallah, L
Zhou, H
Cox, SL
Trendelenburg, AU
Hein, L
Starke, K
Citation: V. Schelb et al., Postnatal development of presynaptic receptors that modulate noradrenalinerelease in mice, N-S ARCH PH, 364(4), 2001, pp. 359-371
Authors:
Cleary, M
Snow, M
Paris, M
Shaw, J
Cox, SL
Jenkin, G
Citation: M. Cleary et al., Cryopreservation of mouse ovarian tissue following prolonged exposure to an ischemic environment, CRYOBIOLOGY, 42(2), 2001, pp. 121-133
Authors:
Imthurn, B
Cox, SL
Jenkin, G
Trounson, AO
Shaw, JM
Citation: B. Imthurn et al., Gonadotrophin administration can benefit ovarian tissue grafted to the body wall: implications for human ovarian grafting, MOL C ENDOC, 163(1-2), 2000, pp. 141-146
Authors:
Shaw, JM
Cox, SL
Trounson, AO
Jenkin, G
Citation: Jm. Shaw et al., Evaluation of the long-term function of cryopreserved ovarian grafts in the mouse, implications for human applications, MOL C ENDOC, 161(1-2), 2000, pp. 103-110
Authors:
Gobel, I
Trendelenburg, AU
Cox, SL
Meyer, A
Starke, K
Citation: I. Gobel et al., Electrically evoked release of [H-3]noradrenaline from mouse cultured sympathetic neurons: Release-modulating heteroreceptors, J NEUROCHEM, 75(5), 2000, pp. 2087-2094
Authors:
Cox, SL
Shaw, J
Jenkin, G
Citation: Sl. Cox et al., Follicular development in transplanted fetal and neonatal mouse ovaries isinfluenced by the gonadal status of the adult recipient, FERT STERIL, 74(2), 2000, pp. 366-371
Authors:
Trendelenburg, AU
Cox, SL
Schelb, V
Klebroff, W
Khairallah, L
Starke, K
Citation: Au. Trendelenburg et al., Modulation of H-3-noradrenaline release by presynaptic opioid, cannabinoidand bradykinin receptors and beta-adrenoceptors in mouse tissues, BR J PHARM, 130(2), 2000, pp. 321-330
Authors:
Cox, SL
Schelb, V
Trendelenburg, AU
Starke, K
Citation: Sl. Cox et al., Enhancement of noradrenaline release by angiotensin II and bradykinin in mouse atria: evidence for cross-talk between G(q/11) protein- and G(i/o) protein-coupled receptors, BR J PHARM, 129(6), 2000, pp. 1095-1102
Authors:
Trendelenburg, AU
Gaiser, EG
Cox, SL
Meyer, A
Starke, K
Citation: Au. Trendelenburg et al., Mouse postganglionic sympathetic neurons: Primary culturing and noradrenaline release, J NEUROCHEM, 73(4), 1999, pp. 1431-1438
Authors:
Trendelenburg, AU
Cox, SL
Gaiser, EG
Meyer, A
Starke, K
Citation: Au. Trendelenburg et al., Noradrenaline release from cultured mouse postganglionic sympathetic neurons: Autoreceptor-mediated modulation, J NEUROCHEM, 73(4), 1999, pp. 1439-1445
Authors:
Lau, WAK
Cox, SL
Pennefather, JN
Mitchelson, FJ
Citation: Wak. Lau et al., Pharmacological characterization of endothelin receptor subtypes in the guinea-pig prostate gland, BR J PHARM, 127(5), 1999, pp. 1091-1098
Authors:
Cox, SL
Trendelenburg, AU
Starke, K
Citation: Sl. Cox et al., Prejunctional angiotensin receptors involved in the facilitation of noradrenaline release in mouse tissues, BR J PHARM, 127(5), 1999, pp. 1256-1262
Risultati:
1-15
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