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Search results 201 to 225 out of 225 for Ghrhr

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Type Details Score
Genotype
Genotype
Symbol: Gt(ROSA)26Sor/Gt(ROSA)26Sor<+> Tg(Ghrhr-cre)3242Lsk/?
Background: involves: 129S4/SvJaeSor * FVB/N
Zygosity: cn
Has Mutant Allele: true
Gene
2688 | GH1
Type: gene
Organism: human
Publication
27524416 | J:305118
First Author: Chen R
Year: 2017
Journal: Oncogene
Title: mTOR promotes pituitary tumor development through activation of PTTG1.
Volume: 36
Issue: 7
Pages: 979-988
Publication
30760873 | J:305028
First Author: Li C
Year: 2019
Journal: Cell Death Differ
Title: mTOR-dependent upregulation of xCT blocks melanin synthesis and promotes tumorigenesis.
Volume: 26
Issue: 10
Pages: 2015-2028
Publication
32958754 | J:301825
First Author: Abboud D
Year: 2020
Journal: Nat Commun
Title: GPR101 drives growth hormone hypersecretion and gigantism in mice via constitutive activation of Gs and Gq/11.
Volume: 11
Issue: 1
Pages: 4752
Publication
18196598 | J:130525
First Author: Yin Z
Year: 2008
Journal: Genesis
Title: Development of a pituitary-specific cre line targeted to the Pit-1 lineage.
Volume: 46
Issue: 1
Pages: 37-42
Publication
26859333 | J:228862
First Author: Odle AK
Year: 2016
Journal: Endocrinology
Title: Adipocyte Versus Somatotrope Leptin: Regulation of Metabolic Functions in the Mouse.
Volume: 157
Issue: 4
Pages: 1443-56
Publication
25057790 | J:218342
First Author: Akhter N
Year: 2014
Journal: Endocrinology
Title: Selective deletion of leptin receptors in gonadotropes reveals activin and GnRH-binding sites as leptin targets in support of fertility.
Volume: 155
Issue: 10
Pages: 4027-42
Publication
8413847 | -
First Author: Hsiung HM
Year: 1993
Journal: Neuropeptides
Title: Structure and functional expression of a complementary DNA for porcine growth hormone-releasing hormone receptor.
Volume: 25
Issue: 1
Pages: 1-10
Publication
7680413 | -
First Author: Gaylinn BD
Year: 1993
Journal: Mol Endocrinol
Title: Molecular cloning and expression of a human anterior pituitary receptor for growth hormone-releasing hormone.
Volume: 7
Issue: 1
Pages: 77-84
Publication
33060564 | -
First Author: Zhou F
Year: 2020
Journal: Nat Commun
Title: Structural basis for activation of the growth hormone-releasing hormone receptor.
Volume: 11
Issue: 1
Pages: 5205
Protein Domain
IPR003288 | GPCR_2_GHRH_rcpt
Type: Family
Description: G protein-coupled receptors (GPCRs) constitute a vast protein family that encompasses a wide range of functions, including various autocrine, paracrine and endocrine processes. They show considerable diversity at the sequence level, on the basis of which they can be separated into distinct groups []. The term clan can be used to describe the GPCRs, as they embrace a group of families for which there are indications of evolutionary relationship, but between which there is no statistically significant similarity in sequence []. The currently known clan members include rhodopsin-like GPCRs (Class A, GPCRA), secretin-like GPCRs (Class B, GPCRB), metabotropic glutamate receptor family (Class C, GPCRC), fungal mating pheromone receptors (Class D, GPCRD), cAMP receptors (Class E, GPCRE) and frizzled/smoothened (Class F, GPCRF) [, , , , ]. GPCRs are major drug targets, and are consequently the subject of considerable research interest. It has been reported that the repertoire of GPCRs for endogenous ligands consists of approximately 400 receptors in humans and mice []. Most GPCRs are identified on the basis of their DNA sequences, rather than the ligand they bind, those that are unmatched to known natural ligands are designated by as orphan GPCRs, or unclassified GPCRs [].The secretin-like GPCRs include secretin [], calcitonin [], parathyroid hormone/parathyroid hormone-related peptides []and vasoactive intestinal peptide [], all of which activate adenylyl cyclase and the phosphatidyl-inositol-calcium pathway. These receptors contain seven transmembrane regions, in a manner reminiscent of the rhodopsins and other receptors believed to interact with G-proteins (however there is no significant sequence identity between these families, the secretin-like receptors thus bear their own unique '7TM' signature). Their N-terminal is probably located on the extracellular side of the membrane and potentially glycosylated. This N-terminal region contains a long conserved region which allows the binding of large peptidic ligand such as glucagon, secretin, VIP and PACAP; this region contains five conserved cysteines residues which could be involved in disulphide bond. The C-terminal region of these receptor is probably cytoplasmic. Every receptor gene in this family is encoded on multiple exons, and several of these genes are alternatively spliced to yield functionally distinct products. Growth hormone (GH)-releasing hormone (GHRH) belongs to the family of gut-neuropeptide hormones that includes glucagon, secretin and vasoactive intestinal peptide (VIP) []. The receptors for this peptide family involve similar signal transduction pathways - on hormone binding, they interact with G protein and cause stimulation of adenylate cyclase []. Acting through the GHRH receptor (GHRHR), GH plays a pivotal role in the regulation of GH synthesis and secretion in the pituitary, possibly serving other roles in different tissues []. Cryo-electron microscopy shows a hormone recognition pattern where an α-helical GHRH forms interactions involving all the extracellular loops, most TM helices, and a linker from GHRHR []. The human pituitary GHRHR is a 423-amino acid protein that has the characteristic 7TM signature of the secretin-like GPCR superfamily, sharing 47%, 42%, 35%, and 28% identity with receptors for VIP, secretin, calcitonin and PTH, respectively [].
Protein
P32082
Organism: Mus musculus/domesticus
Length: 423  
Fragment?: false
Protein
A0A0N4SVS4
Organism: Mus musculus/domesticus
Length: 386  
Fragment?: false
Publication
1646711 | -
First Author: Ishihara T
Year: 1991
Journal: EMBO J
Title: Molecular cloning and expression of a cDNA encoding the secretin receptor.
Volume: 10
Issue: 7
Pages: 1635-41
Publication
1314625 | -
First Author: Ishihara T
Year: 1992
Journal: Neuron
Title: Functional expression and tissue distribution of a novel receptor for vasoactive intestinal polypeptide.
Volume: 8
Issue: 4
Pages: 811-9
Publication
1658940 | -
First Author: Lin HY
Year: 1991
Journal: Science
Title: Expression cloning of an adenylate cyclase-coupled calcitonin receptor.
Volume: 254
Issue: 5034
Pages: 1022-4
Publication
1658941 | -
First Author: Jüppner H
Year: 1991
Journal: Science
Title: A G protein-linked receptor for parathyroid hormone and parathyroid hormone-related peptide.
Volume: 254
Issue: 5034
Pages: 1024-6
Publication
12679517 | J:83410
First Author: Vassilatis DK
Year: 2003
Journal: Proc Natl Acad Sci U S A
Title: The G protein-coupled receptor repertoires of human and mouse.
Volume: 100
Issue: 8
Pages: 4903-8
Publication
8170923 | -
First Author: Attwood TK
Year: 1994
Journal: Protein Eng
Title: Fingerprinting G-protein-coupled receptors.
Volume: 7
Issue: 2
Pages: 195-203
Publication
8081729 | -
First Author: Kolakowski LF Jr
Year: 1994
Journal: Receptors Channels
Title: GCRDb: a G-protein-coupled receptor database.
Volume: 2
Issue: 1
Pages: 1-7
Publication
15914470 | -
First Author: Foord SM
Year: 2005
Journal: Pharmacol Rev
Title: International Union of Pharmacology. XLVI. G protein-coupled receptor list.
Volume: 57
Issue: 2
Pages: 279-88
Publication
18948278 | -
First Author: Harmar AJ
Year: 2009
Journal: Nucleic Acids Res
Title: IUPHAR-DB: the IUPHAR database of G protein-coupled receptors and ion channels.
Volume: 37
Issue: Database issue
Pages: D680-5
Publication
16753280 | J:115055
First Author: Bjarnadóttir TK
Year: 2006
Journal: Genomics
Title: Comprehensive repertoire and phylogenetic analysis of the G protein-coupled receptors in human and mouse.
Volume: 88
Issue: 3
Pages: 263-73
Publication
23020293 | -
 
First Author: Civelli O
Year: 2013
Journal: Annu Rev Pharmacol Toxicol
Title: G protein-coupled receptor deorphanizations.
Volume: 53
Pages: 127-46




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