SOX3 is required during the formation of the hypothalamo-pituitary axis
about
Deletion of ultraconserved elements yields viable miceCongenital hydrocephalus and abnormal subcommissural organ development in Sox3 transgenic miceIdentification of candidate genes for human pituitary development by EST analysisIdentification of SOX3 as an XX male sex reversal gene in mice and humansOver- and underdosage of SOX3 is associated with infundibular hypoplasia and hypopituitarismAn interstitial deletion-insertion involving chromosomes 2p25.3 and Xq27.1, near SOX3, causes X-linked recessive hypoparathyroidismA role of the LIM-homeobox gene Lhx2 in the regulation of pituitary developmentArray comparative genomic hybridisation analysis of boys with X linked hypopituitarism identifies a 3.9 Mb duplicated critical region at Xq27 containing SOX3Control of cell fate and differentiation by Sry-related high-mobility-group box (Sox) transcription factorsNeuronal migration and ventral subtype identity in the telencephalon depend on SOX1Recent advances in central congenital hypothyroidismPlasticity of gene-regulatory networks controlling sex determination: of masters, slaves, usual suspects, newcomers, and usurpatorsMale infertility and the involvement of the X chromosomeUTX and UTY demonstrate histone demethylase-independent function in mouse embryonic developmentTCF4 deficiency expands ventral diencephalon signaling and increases induction of pituitary progenitorsWNT signaling affects gene expression in the ventral diencephalon and pituitary gland growthGenetic interaction between the homeobox transcription factors HESX1 and SIX3 is required for normal pituitary developmentMutations within Sox2/SOX2 are associated with abnormalities in the hypothalamo-pituitary-gonadal axis in mice and humansSOX2 is a dose-dependent regulator of retinal neural progenitor competenceSox2 induces neuronal formation in the developing mammalian cochlea.FGF-dependent midline-derived progenitor cells in hypothalamic infundibular developmentPhenotypic variability in children with growth hormone deficiency associated with posterior pituitary ectopia.Hypopituitarism oddities: congenital causes.Direct transcriptional regulation of Six6 is controlled by SoxB1 binding to a remote forebrain enhancerB1 SOX coordinate cell specification with patterning and morphogenesis in the early zebrafish embryoGenetic regulation of pituitary gland development in human and mousePituitary gland development and disease: from stem cell to hormone productionTranscriptional control of spermatogonial maintenance and differentiationSOX2 hypomorphism disrupts development of the prechordal floor and optic cupGenes involved in post-transcriptional regulation are overrepresented in stem/progenitor spermatogonia of cryptorchid mouse testes.Mammalian viviparity: a complex niche in the evolution of genomic imprinting.Molecular mechanisms of pituitary organogenesis: In search of novel regulatory genes.Interaction of Sox1, Sox2, Sox3 and Oct4 during primary neurogenesis.Cellular and molecular specificity of pituitary gland physiology.Comparative transcriptomics in East African cichlids reveals sex- and species-specific expression and new candidates for sex differentiation in fishes.Activation of Sox3 gene by thyroid hormone in the developing adult intestinal stem cell during Xenopus metamorphosisMechanistic insight into the pathology of polyalanine expansion disorders revealed by a mouse model for X linked hypopituitarismFibroblast growth factor signaling in the developing neuroendocrine hypothalamusDisruption of SoxB1-dependent Sonic hedgehog expression in the hypothalamus causes septo-optic dysplasia.Sox3 functions in a cell-autonomous manner to regulate spermatogonial differentiation in mice.
P2860
Q21092753-B8B08291-5B1C-4C72-8D23-00B3A52AD75BQ21134928-662F1A2D-482F-4E12-AAD7-8C0262226E16Q21283769-8DDB87FE-FE0F-42F0-A7C0-44074C0D2DD3Q24320278-215B2282-329F-4209-89EA-093031ABD5CEQ24531513-EB10420B-4622-46DD-B60F-D71DDCADBF22Q24532126-404619C0-2943-4F80-8094-4AC1F677B209Q24633461-57DA722C-6121-45FF-AC57-AB6A861EE8EFQ24674814-986A59B9-C753-4EA2-B2B3-D875804662D2Q24676478-86BC14B4-CAFC-4909-B620-4731C7EE77A0Q24803102-F4CDC130-248E-43B1-8C9D-D45D760807D7Q26785331-D0703B2D-41F4-4551-B289-7CAD75B77112Q28083479-A948BA9F-584B-4518-B396-4E8C72359093Q28248156-3F8BC0F9-B06B-49FC-9F02-DE89D5A6BD28Q28484095-17DE434D-E7BE-4536-90EA-08E348EE2ECEQ28505384-4648EA93-89BE-4E2C-9916-4AF9DB065611Q28509925-F62DA7CB-BD8C-4DEC-8E18-20225FBF745EQ28513783-739365CE-F454-4E9A-8563-1F9448BA5FA1Q28586560-C14276B7-59D8-4958-8EA9-8873FB5290DAQ28592758-E1FE86F5-3682-4AAC-9C8D-3F501124D259Q30480523-6616EC3A-0562-48CE-A306-8F386D958FC4Q30500400-114F05F4-194C-4DB1-A21E-560F969DCE0AQ31035731-EDFB61E0-1C36-4F92-83F7-FC761061870CQ31141847-D9A6C015-0DD5-4D90-B180-CD30E0BF6D4AQ33563970-02E1BC5D-19F5-4833-9739-B167C78B211AQ33576759-4304FB18-318C-4C9B-8BB9-4379D4AE638CQ33590141-2E488BD9-DC40-48A8-BB7E-46B1ABA65278Q33687947-5AECAC0E-1CD8-47BA-814C-CCF4A2C61F46Q33707028-585BEEFA-3BCC-4F88-AD8E-8D9BF4D38325Q33829466-901261C0-7545-45FE-A160-02BD608E4150Q33881360-B5616BEC-8B7B-4C6F-BE65-B577A718CF1CQ33927898-B87E2152-54EB-4BB3-BC6B-50576EE7EE6BQ34017922-78A69A05-D027-4962-93BD-50DD3B500BB6Q34154152-2426789F-F2A2-4759-810F-869070A71D76Q34251305-9E62A9FA-6A4E-481C-9A29-F8EB8DD16CCBQ34366797-4EFD9291-F024-48DB-A3F4-EF048A2CB624Q34551733-8E15D8D7-9F89-4A5B-B58F-B0F3618CBA04Q34625379-FBF05E10-42D7-40CA-8AE8-BA15447CCCA2Q34632015-D6696F42-B4C1-4356-A3A5-687DB9C353A0Q34636655-F4EE56E6-EA11-456E-9220-4E637F322C6AQ34697057-3E5A9BF9-E1A5-4D4A-8D04-FE96754C6B9D
P2860
SOX3 is required during the formation of the hypothalamo-pituitary axis
description
2004 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի մարտին հրատարակված գիտական հոդված
@hy
articolo scientifico
@it
artículu científicu espublizáu en 2004
@ast
im März 2004 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2004/03/01)
@sk
vědecký článek publikovaný v roce 2004
@cs
wetenschappelijk artikel (gepubliceerd op 2004/03/01)
@nl
наукова стаття, опублікована в березні 2004
@uk
name
SOX3 is required during the formation of the hypothalamo-pituitary axis
@ast
SOX3 is required during the formation of the hypothalamo-pituitary axis
@en
SOX3 is required during the formation of the hypothalamo-pituitary axis
@nl
type
label
SOX3 is required during the formation of the hypothalamo-pituitary axis
@ast
SOX3 is required during the formation of the hypothalamo-pituitary axis
@en
SOX3 is required during the formation of the hypothalamo-pituitary axis
@nl
prefLabel
SOX3 is required during the formation of the hypothalamo-pituitary axis
@ast
SOX3 is required during the formation of the hypothalamo-pituitary axis
@en
SOX3 is required during the formation of the hypothalamo-pituitary axis
@nl
P2093
P2860
P3181
P356
P1433
P1476
SOX3 is required during the formation of the hypothalamo-pituitary axis
@en
P2093
Danielle Carmignac
Iain C. Robinson
Paul Q. Thomas
Robin Lovell-Badge
P2860
P2888
P304
P3181
P356
10.1038/NG1309
P407
P577
2004-03-01T00:00:00Z