Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
about
Novel insights into the bovine polled phenotype and horn ontogenesis in BovidaeRelaxin family peptide receptors--former orphans reunite with their parent ligands to activate multiple signalling pathwaysOrigin of INSL3-mediated testicular descent in therian mammalsRegulation of receptor signaling by relaxin A chain motifs: derivation of pan-specific and LGR7-specific human relaxin analogsSynthesis of fluorescent analogs of relaxin family peptides and their preliminary in vitro and in vivo characterization.The effect of relaxin on cell proliferation in mouse cervix requires estrogen receptor {alpha} binding to estrogen response elements in stromal cellsRelaxin: antifibrotic properties and effects in models of diseaseRelaxin induces matrix-metalloproteinases-9 and -13 via RXFP1: induction of MMP-9 involves the PI3K, ERK, Akt and PKC-ζ pathwaysSuppression of insulin-like3 receptor reveals the role of β-catenin and Notch signaling in gubernaculum development.Uterine cysts in female mice deficient for caveolin-1 and insulin-like 3 receptor RXFP2Relaxin enhances the oncogenic potential of human thyroid carcinoma cells.International Union of Basic and Clinical Pharmacology. XCV. Recent advances in the understanding of the pharmacology and biological roles of relaxin family peptide receptors 1-4, the receptors for relaxin family peptides.Insulin-like 3 signaling is important for testicular descent but dispensable for spermatogenesis and germ cell survival in adult mice.Expansion of specialized epidermis induced by hormonal state and mechanical strainRelaxin increases human endothelial progenitor cell NO and migration and vasculogenesis in miceChanges of large molecular weight hyaluronan and versican in the mouse pubic symphysis through pregnancy.Relaxin family peptide receptors Rxfp1 and Rxfp2: mapping of the mRNA and protein distribution in the reproductive tract of the male rat.Conditional deletion of the relaxin receptor gene in cells of smooth muscle lineage affects lower reproductive tract in pregnant mice.Relaxin regulates hyaluronan synthesis and aquaporins in the cervix of late pregnant mice.Relaxin acts on stromal cells to promote epithelial and stromal proliferation and inhibit apoptosis in the mouse cervix and vagina.Relaxin deficiency results in increased expression of angiogenesis- and remodelling-related genes in the uterus of early pregnant mice but does not affect endometrial angiogenesis prior to implantationRelaxin and its role in the development and treatment of fibrosis.Relative roles of the epithelial and stromal tissue compartment(s) in mediating the actions of relaxin and estrogen on cell proliferation and apoptosis in the mouse lower reproductive tract.Expression and function of G-protein-coupled receptors in the male reproductive tract.Recombinant human relaxin-2: (how) can a pregnancy hormone save lives in acute heart failure?Synthetic non-peptide low molecular weight agonists of the relaxin receptor 1.Relaxin-like peptides in male reproduction - a human perspective.Relaxin signaling activates peroxisome proliferator-activated receptor gamma.Human medullary thyroid carcinoma: a source and potential target for relaxin-like hormones.Genetic targeting of relaxin and insl3 signaling in mice.Relaxin affects cell organization and early and late stages of spermatogenesis in a coculture of rat testicular cells.Evolution of the signaling system in relaxin-family peptides.Chronic intracerebroventricular administration of relaxin-3 increases body weight in rats.Localization of LGR7 gene expression in adult mouse brain using LGR7 knock-out/LacZ knock-in mice: correlation with LGR7 mRNA distribution.Expression of insulin-like factor 3 hormone-receptor system in the reproductive organs of male goats.Genetic ablation of androgen receptor signaling in fetal Leydig cell lineage affects Leydig cell functions in adult testis.Targeted disruption of one of the importin α family members leads to female functional incompetence in delivery.Time-dependent regulation of morphological changes and cartilage differentiation markers in the mouse pubic symphysis during pregnancy and postpartum recovery.Human Relaxin Receptor Is Fully Functional in Humanized Mice and Is Activated by Small Molecule Agonist ML290.High iNOS mRNA and protein localization during late pregnancy suggest a role for nitric oxide in mouse pubic symphysis relaxation.
P2860
Q21090752-FBFEE7E8-C2F6-494A-90D7-B62E3723C51BQ24564959-82EBD94D-6440-4A47-870A-96C2A797635DQ28754291-CFFD4D76-D06F-42E9-A69C-E0E054248134Q28756592-18C3670A-ED62-4536-A970-0DF528B9090FQ30575864-A5D27BE6-1A1E-4137-860D-77E786C01F5BQ33874416-2E29DAF6-81CA-4C0D-9AAC-3F0CFB5670F6Q34146511-7337B728-D4BF-4EDD-93F3-7FDE18FC0DCBQ34640853-ECBB3722-1C02-4527-BC92-FB37333CA6B3Q34942943-63BF9238-1258-43F5-8C97-46B5541EEE83Q35001368-DB086CCE-F375-40A2-B08B-90BAA831444CQ35221931-98721064-D29D-477E-BC93-FCCFF6A57EFCQ35383835-2FC35654-F307-420F-87CB-6A5D2B0AF673Q35618408-40BA7FD7-D6DE-4F66-B385-9E0305F5E6CDQ35662770-124AEC7A-325C-48FE-9C82-7216A4D3026CQ35669250-8EDCA103-FACE-4A9B-B718-ABF61AEB91A9Q35791002-074BE90A-2319-4E8E-994F-BB884100A374Q35939966-4F36368C-A592-4C03-AEF6-F2DFBF8C8FE9Q36277282-956C3374-BF08-4AD6-BD9C-0F83DB15AE04Q36439602-DE088291-A85D-44FA-96C7-CB664DFA97FCQ36578873-70169667-7C70-4FAD-8B29-4D37C4478F02Q36715081-1EE3B1F2-C895-4CCF-9C75-0FFB5BDCBBF6Q37229308-886D3F5C-5110-4BD0-96B9-1CE5B71425EDQ37345765-D91398AB-3848-425C-A2BD-5678B0BB64F3Q37590172-763455D4-903C-4AFF-8E8E-24E00824DB5BQ38220684-BEB5D9A6-4AE4-414C-B28E-A6925200C0C7Q38807047-A2829CDA-D996-4611-9D0E-C80C91930AB3Q39033904-F1F7C053-939C-4F3C-BA7A-28458B8B827FQ39807254-EDD09299-F854-46F8-B511-9234253EA5D9Q40409491-DF680E96-97A5-479E-8868-3EF054EB1253Q40409544-CC2794B4-2F1C-4051-AB2B-2CDEAE8CF037Q42477870-0466AB50-10CE-438D-9ABC-E353FABD32F7Q47268876-5666D91D-7725-4918-BC4E-B6C239B93EADQ47333527-EC311EA4-085E-496C-A564-C673EFB6D2B6Q48853808-5817E0BA-876A-43A2-A666-CE8538E2FEBEQ50585036-2CFAF6D2-C34F-4755-9AA3-4E3033641778Q50599184-EFAE03F5-62C1-45FD-941B-25B83253D022Q51497316-ADD75C4E-524E-4663-A34A-DDFB13A02FE6Q52330950-636C7FAC-258E-4E38-824C-47255B7AF4DDQ52684082-3A9309F0-EB71-49EB-BA17-BF01AFF62D6EQ54330594-FE20FFAC-AFAC-4DCB-B7D4-12584D383AFE
P2860
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
description
2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2004
@ast
im Oktober 2004 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2004/10/01)
@sk
vědecký článek publikovaný v roce 2004
@cs
wetenschappelijk artikel (gepubliceerd op 2004/10/01)
@nl
наукова стаття, опублікована в жовтні 2004
@uk
مقالة علمية (نشرت في أكتوبر 2004)
@ar
name
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@ast
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@en
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@nl
type
label
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@ast
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@en
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@nl
prefLabel
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@ast
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@en
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@nl
P2093
P3181
P356
P1433
P1476
Genetic targeting of relaxin and insulin-like factor 3 receptors in mice
@en
P2093
Anne Truong
Aparna A. Kamat
Colin E. Bishop
Natalia V. Bogatcheva
P304
P3181
P356
10.1210/EN.2004-0515
P407
P577
2004-10-01T00:00:00Z