Differential mechanisms of morphine antinociceptive tolerance revealed in βarrestin-2 knock-out mice
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
[PDF][PDF] Differential Mechanisms of Morphine Antinociceptive Tolerance Revealed in Arrestin-2 Knock-Out Mice
LM Bohn, RJ Lefkowitz… - The Journal of …, 2002 - dukespace.lib.duke.edu
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. ßarrestin-2 (ßarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. ßarrestin-2 (ßarr2), a G-protein-coupled receptor-regulating …
Differential mechanisms of morphine antinociceptive tolerance revealed in (beta) arrestin-2 knock-out mice.
LM Bohn, RJ Lefkowitz, MG Caron - … Official Journal of the Society for …, 2002 - europepmc.org
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
[PDF][PDF] Differential Mechanisms of Morphine Antinociceptive Tolerance Revealed in Arrestin-2 Knock-Out Mice
LM Bohn, RJ Lefkowitz, MG Caron - The Journal of Neuroscience, 2002 - Soc Neuroscience
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. ßarrestin-2 (ßarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. ßarrestin-2 (ßarr2), a G-protein-coupled receptor-regulating …
[引用][C] Differential Mechanisms of Morphine Antinociceptive Tolerance Revealed in βArrestin-2 Knock-Out Mice
LM Bohn, RJ Lefkowitz, MG Caron - The Journal of Neuroscience, 2002 - cir.nii.ac.jp
Differential Mechanisms of Morphine Antinociceptive Tolerance Revealed in βArrestin-2
Knock-Out Mice | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ …
Knock-Out Mice | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ …
[HTML][HTML] Differential Mechanisms of Morphine Antinociceptive Tolerance Revealed in βArrestin-2 Knock-Out Mice
LM Bohn, RJ Lefkowitz, MG Caron - The Journal of Neuroscience, 2002 - ncbi.nlm.nih.gov
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
Differential mechanisms of morphine antinociceptive tolerance revealed in (beta) arrestin-2 knock-out mice
LM Bohn, RJ Lefkowitz… - The Journal of …, 2002 - pubmed.ncbi.nlm.nih.gov
Morphine induces antinociception by activating mu opioid receptors (muORs) in spinal and
supraspinal regions of the CNS.(Beta) arrestin-2 (beta) arr2), a G-protein-coupled receptor …
supraspinal regions of the CNS.(Beta) arrestin-2 (beta) arr2), a G-protein-coupled receptor …
Differential mechanisms of morphine antinociceptive tolerance revealed in (beta) arrestin-2 knock-out mice.
LM Bohn, RJ Lefkowitz, MG Caron - … Official Journal of the Society for …, 2002 - europepmc.org
Morphine induces antinociception by activating μ opioid receptors (μORs) in spinal and
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
supraspinal regions of the CNS. βarrestin-2 (βarr2), a G-protein-coupled receptor-regulating …
Differential mechanisms of morphine antinociceptive tolerance revealed in (beta) arrestin-2 knock-out mice.
LM Bohn, RJ Lefkowitz, MG Caron - 2002 - dukespace.lib.duke.edu
Morphine induces antinociception by activating mu opioid receptors (muORs) in spinal and
supraspinal regions of the CNS.(Beta) arrestin-2 (beta) arr2), a G-protein-coupled receptor …
supraspinal regions of the CNS.(Beta) arrestin-2 (beta) arr2), a G-protein-coupled receptor …