about
Drosophila asterless and vertebrate Cep152 Are orthologs essential for centriole duplicationKinesin-2 family motors in the unusual photoreceptor ciliumElipsa is an early determinant of ciliogenesis that links the IFT particle to membrane-associated small GTPase Rab8.The Cilium: Cellular Antenna and Central Processing UnitProstaglandin signalling regulates ciliogenesis by modulating intraflagellar transportCRB1 gene mutations are associated with keratoconus in patients with leber congenital amaurosisSmall molecule screen for compounds that affect vascular development in the zebrafish retinaThe apical complex couples cell fate and cell survival to cerebral cortical development.Reverse genetic analysis of neurogenesis in the zebrafish retina.A male with unilateral microphthalmia reveals a role for TMX3 in eye developmentFrom the cytoplasm into the cilium: bon voyage.Analysis of the retina in the zebrafish model.The role of crumbs genes in the vertebrate cornea.The role of glypicans in Wnt inhibitory factor-1 activity and the structural basis of Wif1's effects on Wnt and Hedgehog signaling.Forward and reverse genetic approaches to the analysis of eye development in zebrafish.Cell fate decisions and patterning in the vertebrate retina: the importance of timing, asymmetry, polarity and waves.Unexpected Roles for Ciliary Kinesins and Intraflagellar Transport Proteins.Analysis of cilia structure and function in zebrafish.oko meduzy and related crumbs genes are determinants of apical cell features in the vertebrate embryo.Apico-basal Polarity Determinants Encoded by crumbs Genes Affect Ciliary Shaft Protein Composition, IFT Movement Dynamics, and Cilia Length.Mutation of the zebrafish glass onion locus causes early cell-nonautonomous loss of neuroepithelial integrity followed by severe neuronal patterning defects in the retina.nagie oko, encoding a MAGUK-family protein, is essential for cellular patterning of the retina.Zebrafish N-cadherin, encoded by the glass onion locus, plays an essential role in retinal patterning.Intraflagellar transport genes are essential for differentiation and survival of vertebrate sensory neurons.Loss of ift122, a Retrograde Intraflagellar Transport (IFT) Complex Component, Leads to Slow, Progressive Photoreceptor Degeneration Due to Inefficient Opsin Transport.An automated method for cell detection in zebrafish.Mutations that affect the survival of selected amacrine cell subpopulations define a new class of genetic defects in the vertebrate retina.Genetic defects of pronephric cilia in zebrafish.A screen for genetic defects of the zebrafish ear.Functional interactions of genes mediating convergent extension, knypek and trilobite, during the partitioning of the eye primordium in zebrafish.High-throughput behavioral screening method for detecting auditory response defects in zebrafish.Analysis of cilia structure and function in zebrafish.The zebrafish cornea: structure and developmentDetection of blob objects in microscopic zebrafish images based on gradient vector diffusionAnalysis of the retina in the zebrafish model
P50
Q24646328-D6D171CD-AC5B-41C0-8AF0-CEBFC7F4F9FFQ27023049-627BB3DA-3CCD-4F45-8C8C-11994FE42F5EQ27919719-FFCAF3D0-D163-4D78-8FC8-0E7C1BFE000AQ28075519-7E82A983-028B-43B5-93EB-7C8A0715BCBCQ28114834-022C078F-C64A-4D22-AA9D-3404565D9ECBQ28243356-1D7E7C57-7C98-4CA1-868A-E7865E71390FQ30491582-1BDFF71C-C143-4AA4-AFC9-FA416B815C9FQ30494549-3227C63C-1FB8-4B99-A5EF-5F836494FEE3Q33239323-4D7EA489-CF76-4860-8567-AD8EAB73A938Q33582105-2C79A2DF-1221-42BC-BCDE-70A8AC644811Q33728229-D2428361-D94C-406D-876A-1FEB2A43AFD4Q33997893-A7DB9C4C-BC99-4992-A997-DEBD0A3A0856Q34135503-F94F4152-B99A-4225-8832-9EF40730E6AEQ34181382-65CDCDA9-59DD-4A76-AEEB-C62376505380Q34537548-A8ECFC49-ACAF-4EF2-BA48-230440F3D320Q35690286-BB43FE07-E729-492F-9EDD-766FE85C7CD6Q36976875-4A386B11-A260-4D45-A133-5086AC0DAD7BQ37873091-D8416D1F-AF99-46E9-814D-C53BBF21EA60Q42495698-5FAE2814-1FB2-4A7A-B2F1-E2045C19BBAEQ42514647-63816D61-336B-4FA7-BD13-0674B0C989E9Q43633068-5D8FF5F2-6174-496A-A48F-35E3F8FFFE6EQ43981047-B23EC9F9-4880-4156-A12B-F4DE7C36178FQ44481989-A80926F7-BBA4-4C0D-A4E0-95B0A5A1EAA5Q44925600-F3DC2CCE-3F1A-433A-B56D-5BC40136A22CQ44962787-6BFC4EB3-6059-42D8-A44B-A862EAD5BACBQ46742894-B7D3C04E-3B9D-4EC8-9FAA-39EF26145EA6Q46758555-18F99032-D0B2-4F26-AA27-2558558B5515Q47073366-DDA44173-A0A6-4D77-9C25-F7C278D416BEQ47073661-65D2D5E0-8A1F-42EB-B507-E2925931A563Q47074025-93FB2300-0DF5-449B-9410-C59CE7E8B3D9Q50486767-606E6CED-17F1-49BF-A6F1-655F0AB2C617Q50506785-3C220708-649E-4155-9A52-BDB151D7643DQ79143781-658B0042-F7CC-490C-95FC-FE4351BFC0AFQ80678474-E7E21D7B-A277-4115-9647-EC9C36355DC1Q87685760-936EB5E6-4E69-49B2-A631-1ABF00C98C6B
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jarema Malicki
@ast
Jarema Malicki
@en
Jarema Malicki
@es
Jarema Malicki
@nl
Jarema Malicki
@sl
type
label
Jarema Malicki
@ast
Jarema Malicki
@en
Jarema Malicki
@es
Jarema Malicki
@nl
Jarema Malicki
@sl
prefLabel
Jarema Malicki
@ast
Jarema Malicki
@en
Jarema Malicki
@es
Jarema Malicki
@nl
Jarema Malicki
@sl
P106
P31
P496
0000-0002-5947-8805