about
Thalidomide deformities and their nerve supply.A requirement for FGF signalling in the formation of primitive streak-like intermediates from primitive ectoderm in cultureRequirement for TGFbeta receptor signaling during terminal lens fiber differentiationOsmic acid staining of myelin sheath in normal and regenerated peripheral nerves.Studying age-related macular degeneration using animal models.Adenosine triphosphate-induced photoreceptor death and retinal remodeling in ratsA role for smoothened during murine lens and cornea development.Inner retinal change in a novel rd1-FTL mouse model of retinal degeneration.Transforming growth factor-beta-induced epithelial-mesenchymal transition in the lens: a model for cataract formation.WNT/Frizzled signaling in eye development and disease.The role of fibroblast growth factor in eye lens development.The lens epithelium in ocular health and disease.Altered SOX9 genital tubercle enhancer region in hypospadias.Tob1 is expressed in developing and adult gonads and is associated with the P-body marker, Dcp2.Differential requirement for beta-catenin in epithelial and fiber cells during lens development.Cross-fostering of the tammar wallaby (Macropus eugenii) pouch young accelerates fore-stomach maturation.Random ciliary orientation. A cause of respiratory tract disease.Integrin linked kinase (ILK) is required for lens epithelial cell survival, proliferation and differentiation.BMP and activin receptor expression in lens development.Conditional mutations of beta-catenin and APC reveal roles for canonical Wnt signaling in lens differentiation.Laminin-binding integrins in rat lens morphogenesis and their regulation during fibre differentiation.Esrp1 is a marker of mouse fetal germ cells and differentially expressed during spermatogenesis.Scintigraphic measurement of tracheal mucus velocity in vivo.Differential cataractogenic potency of TGF-beta1, -beta2, and -beta3 and their expression in the postnatal rat eye.Expression analysis of Cdx2 and Pou5f1 in a marsupial, the stripe-faced dunnart, during early development.Peter Bishop Lecture: growth factors in lens development and cataract: key roles for fibroblast growth factor and TGF-beta.Localization of the extracellular Ca(2+)-sensing receptor in the human placenta.Localization and Possible Function of P2X Receptors in Normal and Diseased Retinae.Differential expression of fibroblast growth factor receptors during rat lens morphogenesis and growth.Generation of transparency and cellular organization in lens explants.TGFβ Receptor Expression in Lens: Implications for Differentiation and CataractogenesisA quantitative ultrastructural study of motor and sensory lumbosacral nerve roots in the thalidomide-treated rabbit fetusSpatio-temporal distribution of acidic and basic FGF indicates a role for FGF in rat lens morphogenesisFGF receptor-1 (flg) expression is correlated with fibre differentiation during rat lens morphogenesis and growthAcidic and basic FGF in ocular media and lens: implications for lens polarity and growth patternsCiliary defects in healthy subjects, bronchiectasis, and primary ciliary dyskinesiaExpression of FGF-1 and FGF-2 mRNA during lens morphogenesis, differentiation and growthLong-term result of guided nerve regeneration with an inert microporous polytetrafluoroethylene conduitA role for Wnt/beta-catenin signaling in lens epithelial differentiationAccuracy in gamma camera measurements of point source velocities
P50
Q27469203-61408532-A94B-4423-87C2-256D4ACA97F8Q28475383-35582B92-99B0-44B0-A9C0-5D75CA510080Q28513561-82741C91-C31D-49E8-ABF4-553A394A9402Q33279365-707DF876-14AE-44BE-96E4-3DDD12699732Q34293850-3F563512-3018-4236-BC46-CDA4A367BFC1Q34698921-95B8A0A0-5EA6-4F98-8C30-9D86446F4E7BQ35287656-B5C388EC-9079-4A3E-BD32-300C7374F7D9Q35898118-9F566553-BBED-4EEF-B845-F6602B576F09Q36155010-E3B31F91-29B9-484D-96EC-A5CCB358E981Q36486617-94F50B6C-1A68-436C-9509-B3CCDE358F8FQ36713224-1A0355E1-6229-4CBF-B48B-387D6785EBF6Q37795164-0666083E-46F8-43B0-8436-4CB91C70F4E9Q38725564-AC593C77-42BE-48FC-9C0C-104EAAA490D4Q40337342-F7214F04-CB86-4283-8D96-9C3E36171C50Q42439342-D32C75DD-D3DB-417D-8A82-A5640B4AD05FQ43612073-45A7EF98-D28E-4B6E-8EFC-1598ACADBEE8Q43942927-3190FFE8-C0A2-4015-82A4-3FAF7E8BBDEFQ44597396-676D852C-6A8C-4F9A-B4F0-99FFEEB4BF33Q45043126-9992389F-BFB6-43A8-92C5-14C865571213Q45974200-31558D58-0B3B-461D-8A97-56D4EB3F5095Q46675304-4A719A9F-ED31-4A8F-BE0A-E3F3277F7FD8Q47554894-02AE3602-D22E-4A31-A1C6-80213B13A62CQ47767109-E5385877-BDD3-4E4D-A3AE-E1F4E52B21BEQ47860531-8D0F98F4-D7DF-439A-B99C-37A930D6CBBBQ48563293-91E2A4B2-8855-4040-9F7D-3CFC3B160E93Q48579223-5C4134F3-3117-4A87-B61D-34EB20D1B170Q50104310-B6BE48CB-9A29-4481-A8D7-F83A6C13CF20Q51718263-976D3F62-954A-456E-9C42-1D5ACAF1625EQ52193202-0481A605-D0F0-4D19-84BE-941C89B73640Q53491890-4F3F1C5F-368E-41A8-94AD-E47F53D738F7Q61927868-542E8C1F-4509-4325-BCCF-A460F8274B1FQ68363407-11621E30-4F1C-47D6-AA9B-122574B51400Q71614984-69F87C9B-1E25-4398-BECE-2700ACB97738Q71647455-92C1AB6A-8E0F-44B5-8281-0D878EEE95ADQ72095567-98BC8AC6-7F38-4B79-9244-F80403C12A83Q72205071-25B65ECD-2CC3-4FD5-B05C-74C7934905CAQ73193496-9FE520DC-908A-42BA-8A7F-55480C979396Q73400130-F4D22FB6-D548-44AB-98C1-8DF1BB17829CQ73542915-523DAE41-52EC-4C2C-84BF-03418BA7BE4BQ73999617-69376D3A-52F4-473D-9D28-D5874F8050BE
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Robbert De Iongh
@ast
Robbert De Iongh
@en
Robbert De Iongh
@es
Robbert De Iongh
@nl
Robbert De Iongh
@sl
type
label
Robbert De Iongh
@ast
Robbert De Iongh
@en
Robbert De Iongh
@es
Robbert De Iongh
@nl
Robbert De Iongh
@sl
altLabel
Robb de Iongh
@en
prefLabel
Robbert De Iongh
@ast
Robbert De Iongh
@en
Robbert De Iongh
@es
Robbert De Iongh
@nl
Robbert De Iongh
@sl
P106
P21
P31
P496
0000-0001-7013-1610