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Mathematical model for the androgenic regulation of the prostate in intact and castrated adult male rats.
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Mathematical model for the androgenic regulation of the prostate in intact and castrated adult male rats.
Located in
Exposures
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Potter, Zager, Barton, 2006
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Mathematical Model of an Adult Human Atrial Cell: The Role of K+ Currents in Repolarization
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Mathematical Model of an Adult Human Atrial Cell: The Role of K+ Currents in Repolarization
Located in
Exposures
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Nygren, Fiset, Firek, Clark, Lindblad, Clark, Giles, 1998
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists (Steady State Model)
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists (Basic Model)
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Mathematical model of human growth hormone (hGH)-stimulated cell proliferation explains the efficacy of hGH variants as receptor agonists or antagonists
Located in
Exposures
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Haugh, 2004
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Mathematical model of paracrine interactions between osteoclasts and osteoblasts predicts anabolic action of parathyroid hormone on bone
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Mathematical model of paracrine interactions between osteoclasts and osteoblasts predicts anabolic action of parathyroid hormone on bone
Located in
Exposures
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Komarova, 2005
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Mathematical model of paracrine interactions between osteoclasts and osteoblasts predicts anabolic action of parathyroid hormone on bone
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Mathematical model of paracrine interactions between osteoclasts and osteoblasts predicts anabolic action of parathyroid hormone on bone
Located in
Exposures
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Komarova, 2005
