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Frontiers in Pharmacology
|
April 6, 2019
<i>In vivo</i> Characterization of a Selective, Orally Available, and Brain Penetrant Small Molecule GPR139 Agonist
James R Shoblock, Natalie Welty, Ian Fraser, et al.
The Journal of Biological Chemistry
|
October 3, 2003
Identification of relaxin-3/INSL7 as a ligand for GPCR142
Changlu Liu, Jingcai Chen, Steven Sutton, et al.
Current Molecular Pharmacology
|
July 16, 2014
Involvement of β-arrestin-2 and clathrin in agonist-mediated internalization of the human cannabinoid CB2 receptor
Xiaopan Chen, Congxia Zheng, Jing Qian, et al.
The Journal of Clinical Endocrinology and Metabolism
|
June 7, 2002
Quantification of the soluble leptin receptor in human blood by ligand-mediated immunofunctional assay
Zida Wu, Martin Bidlingmaier, Changlu Liu, et al.
Molecular Pharmacology
|
March 18, 2005
Identification and pharmacological characterization of prokineticin 2 beta as a selective ligand for prokineticin receptor 1
Jingcai Chen, Chester Kuei, Steven Sutton, et al.
ACS Medicinal Chemistry Letters
|
June 6, 2014
Identification of Hydroxybenzoic Acids as Selective Lactate Receptor (GPR81) Agonists with Antilipolytic Effects
Curt A Dvorak, Changlu Liu, Jonathan Shelton, et al.
European Journal of Pharmacology
|
June 13, 2020
Putative role of GPR139 on sleep modulation using pharmacological and genetic rodent models
Lien Wang, Christine Dugovic, Sujin Yun, et al.
Neuroendocrinology
|
May 9, 2006
G-protein-coupled receptor (GPCR)-142 does not contribute to relaxin-3 binding in the mouse brain: further support that relaxin-3 is the physiological ligand for GPCR135
Steven W Sutton, Pascal Bonaventure, Chester Kuei, et al.
Molecular Pharmacology
|
August 25, 2011
Study of GPR81, the lactate receptor, from distant species identifies residues and motifs critical for GPR81 functions
Chester Kuei, Jingxue Yu, Jessica Zhu, et al.
Neuroendocrinology
|
January 29, 2005
Distribution of G-protein-coupled receptor (GPCR)135 binding sites and receptor mRNA in the rat brain suggests a role for relaxin-3 in neuroendocrine and sensory processing
Steven W Sutton, Pascal Bonaventure, Chester Kuei, et al.
Page
of 7
Search research articles
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Showing results (21-30 of 65) with videos related to
Sort By:
Page
of 7
Frontiers in Pharmacology
|
April 6, 2019
<i>In vivo</i> Characterization of a Selective, Orally Available, and Brain Penetrant Small Molecule GPR139 Agonist
James R Shoblock, Natalie Welty, Ian Fraser, et al.
The Journal of Biological Chemistry
|
October 3, 2003
Identification of relaxin-3/INSL7 as a ligand for GPCR142
Changlu Liu, Jingcai Chen, Steven Sutton, et al.
Current Molecular Pharmacology
|
July 16, 2014
Involvement of β-arrestin-2 and clathrin in agonist-mediated internalization of the human cannabinoid CB2 receptor
Xiaopan Chen, Congxia Zheng, Jing Qian, et al.
The Journal of Clinical Endocrinology and Metabolism
|
June 7, 2002
Quantification of the soluble leptin receptor in human blood by ligand-mediated immunofunctional assay
Zida Wu, Martin Bidlingmaier, Changlu Liu, et al.
Molecular Pharmacology
|
March 18, 2005
Identification and pharmacological characterization of prokineticin 2 beta as a selective ligand for prokineticin receptor 1
Jingcai Chen, Chester Kuei, Steven Sutton, et al.
ACS Medicinal Chemistry Letters
|
June 6, 2014
Identification of Hydroxybenzoic Acids as Selective Lactate Receptor (GPR81) Agonists with Antilipolytic Effects
Curt A Dvorak, Changlu Liu, Jonathan Shelton, et al.
European Journal of Pharmacology
|
June 13, 2020
Putative role of GPR139 on sleep modulation using pharmacological and genetic rodent models
Lien Wang, Christine Dugovic, Sujin Yun, et al.
Neuroendocrinology
|
May 9, 2006
G-protein-coupled receptor (GPCR)-142 does not contribute to relaxin-3 binding in the mouse brain: further support that relaxin-3 is the physiological ligand for GPCR135
Steven W Sutton, Pascal Bonaventure, Chester Kuei, et al.
Molecular Pharmacology
|
August 25, 2011
Study of GPR81, the lactate receptor, from distant species identifies residues and motifs critical for GPR81 functions
Chester Kuei, Jingxue Yu, Jessica Zhu, et al.
Neuroendocrinology
|
January 29, 2005
Distribution of G-protein-coupled receptor (GPCR)135 binding sites and receptor mRNA in the rat brain suggests a role for relaxin-3 in neuroendocrine and sensory processing
Steven W Sutton, Pascal Bonaventure, Chester Kuei, et al.
Page
of 7