about
Dynamic coupling of pattern formation and morphogenesis in the developing vertebrate retinaLef1-dependent Wnt/β-catenin signalling drives the proliferative engine that maintains tissue homeostasis during lateral line development.Eph/Ephrin signalling maintains eye field segregation from adjacent neural plate territories during forebrain morphogenesis.The small molecule Mek1/2 inhibitor U0126 disrupts the chordamesoderm to notochord transition in zebrafishThe Iroquois family of genes: from body building to neural patterning.Antagonism between Gdf6a and retinoic acid pathways controls timing of retinal neurogenesis and growth of the eye in zebrafish.Brain regionalization: of signaling centers and boundaries.Integration of anterior neural plate patterning and morphogenesis by the Wnt signaling pathway.The zebrafish flotte lotte mutant reveals that the local retinal environment promotes the differentiation of proliferating precursors emerging from their stem cell niche.Opposing Shh and Fgf signals initiate nasotemporal patterning of the zebrafish retina.Precocious acquisition of neuroepithelial character in the eye field underlies the onset of eye morphogenesis.Tcf7l2 is required for left-right asymmetric differentiation of habenular neurons.Early stages of retinal development depend on Sec13 function.Early stages of zebrafish eye formation require the coordinated activity of Wnt11, Fz5, and the Wnt/beta-catenin pathway.Report of the Second European Zebrafish Principal Investigator Meeting in Karlsruhe, Germany, March 21-24, 2012.Dpp signalling is a key effector of the wing-body wall subdivision of the Drosophila mesothorax.Coordinated Morphogenetic Mechanisms Shape the Vertebrate Eye.The Iroquois homeobox genes function as dorsal selectors in the Drosophila head.Compartments and organising boundaries in the Drosophila eye: the role of the homeodomain Iroquois proteins.Dynamic Tissue Rearrangements during Vertebrate Eye Morphogenesis: Insights from Fish Models.Scutoids are a geometrical solution to three-dimensional packing of epitheliaAuthor Correction: Scutoids are a geometrical solution to three-dimensional packing of epitheliaSetting Eyes on the Retinal Pigment EpitheliumCompensatory mechanisms render Tcf7l1a dispensable for eye formation despite its requirement in eye field specificationNew functions for old genes: Pax6 and Mitf in eye pigment biogenesisAdhesive/Repulsive Codes in Vertebrate Forebrain MorphogenesisCompensatory growth renders Tcf7l1a dispensable for eye formation despite its requirement in eye field specificationThe hedgehog pathway and ocular developmental anomaliesLooking to the future of zebrafish as a model to understand the genetic basis of eye disease
P50
Q27327169-9A1ABAA5-EC3D-4329-8055-B379BAF2CF0AQ30503626-81EB8860-28D9-49AC-9B81-A7BDA10DB07DQ30547788-A9DAEF29-A562-4215-8C1C-589DABD2E1B8Q33328969-5B0BE1A9-EB9D-49B5-9BAA-2AD694421FB5Q34088938-1390D32E-6FD6-4E24-A6E8-E9751BBBC941Q36855990-A4468342-AD90-4E69-8D0C-7D9135CECFFEQ37892502-DEA110F9-5C87-4B67-B026-2499CE63C74CQ38151655-94CC6E25-460E-4F6E-AF49-71C448FC5642Q40928166-AD645307-2E41-463A-8ACA-A869DC1E9091Q41880783-89A723B0-B66D-4D2A-98BD-16B5CBF0AB80Q41884445-08F39A5B-8462-4B7A-B78B-FE690589C4DBQ41940480-38069723-2DA3-42C1-B2A0-F03F2C8AC27BQ42693296-5CB4BF7E-FBB8-4965-B398-A4A55236F2B1Q42958376-A6C48A96-8DB5-4716-AFC8-3799C04E63E3Q45416015-01EA8D9E-9DEC-4DA1-8DCA-2C75FDD16A45Q47071956-321C46ED-08B2-4AFF-B9B1-CF3074C279CCQ49626351-1BF5C4D6-CCA2-457F-BB77-1264352224BCQ52169430-FAD678C0-D881-4B2C-8556-49B92FE075DEQ52573763-4EF71ABE-70DE-4DF2-BB55-C08CF6C6C279Q55113517-2FEFC5A1-595C-4CBB-BFD2-51F87642C026Q55950929-77DFF524-33C4-4F7E-919D-D9155BEA2946Q57295489-9B1799EA-4E77-4BC5-AC84-A2DADBB36B7BQ58566391-71B2587F-8A96-4091-81A5-768A545E05E9Q58895761-D0A3A3AF-1B4B-4645-B4A0-AC7B48A703BBQ58895764-B122BD18-EBAC-4D6D-9427-940E84C91D9AQ58895766-5911CD3B-49B0-4A45-824D-3C31B6E943FEQ61795789-3FDF0CE1-8403-4093-993F-8569E7D15A1CQ63722685-281F0AFE-2832-4424-9EBA-B271CC648114Q92679240-2348CFA9-F62B-43F4-8C08-5A012E43E25C
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
ricercatrice
@it
հետազոտող
@hy
name
Florencia Cavodeassi
@ast
Florencia Cavodeassi
@en
Florencia Cavodeassi
@es
Florencia Cavodeassi
@nl
type
label
Florencia Cavodeassi
@ast
Florencia Cavodeassi
@en
Florencia Cavodeassi
@es
Florencia Cavodeassi
@nl
prefLabel
Florencia Cavodeassi
@ast
Florencia Cavodeassi
@en
Florencia Cavodeassi
@es
Florencia Cavodeassi
@nl
P106
P21
P214
1206149844940702960000
P31
P496
0000-0003-4609-6258