Duplicate mitf genes in zebrafish: complementary expression and conservation of melanogenic potential.
about
Mutations in c10orf11, a melanocyte-differentiation gene, cause autosomal-recessive albinismBasonuclin-2 requirements for zebrafish adult pigment pattern development and female fertilityThe transcriptional response to oxidative stress during vertebrate development: effects of tert-butylhydroquinone and 2,3,7,8-tetrachlorodibenzo-p-dioxinDivergent evolution of two corticotropin-releasing hormone (CRH) genes in teleost fishesEvolution of pigment synthesis pathways by gene and genome duplication in fishThe (in)dependence of alternative splicing and gene duplicationPattern regulation in the stripe of zebrafish suggests an underlying dynamic and autonomous mechanism.Calcium-activated potassium (BK) channels are encoded by duplicate slo1 genes in teleost fishes.Differentiated melanocyte cell division occurs in vivo and is promoted by mutations in Mitf.Genome duplication, subfunction partitioning, and lineage divergence: Sox9 in stickleback and zebrafish.Genome evolution and biodiversity in teleost fish.Identification of multiple integrin beta1 homologs in zebrafish (Danio rerio)Gene Duplication of the zebrafish kit ligand and partitioning of melanocyte development functions to kit ligand a.Differential transcriptional modulation of duplicated fatty acid-binding protein genes by dietary fatty acids in zebrafish (Danio rerio): evidence for subfunctionalization or neofunctionalization of duplicated genes.Pigmentation pathway evolution after whole-genome duplication in fish.Use of phage φC31 integrase as a tool for zebrafish genome manipulation.Genetics and evolution of pigment patterns in fish.An iterative genetic and dynamical modelling approach identifies novel features of the gene regulatory network underlying melanocyte development.The Fugu tyrp1 promoter directs specific GFP expression in zebrafish: tools to study the RPE and the neural crest-derived melanophores.Modularity and reshuffling of Snail and Slug expression during vertebrate evolution.Otx but not Mitf transcription factors are required for zebrafish retinal pigment epithelium development.Subfunctionalization of duplicate mitf genes associated with differential degeneration of alternative exons in fish.Mutation in intron 6 of the hamster Mitf gene leads to skipping of the subsequent exon and creates a novel animal model for the human Waardenburg syndrome type II.The basic helix-loop-helix leucine zipper transcription factor Mitf is conserved in Drosophila and functions in eye development.Development of pigment cells in the zebrafish embryo.Pigment pattern formation in zebrafish: a model for developmental genetics and the evolution of form.Evolution of developmental regulation in the vertebrate FgfD subfamilySplitting pairs: the diverging fates of duplicated genes.A complex choreography of cell movements shapes the vertebrate eye.In situ hybridization: an informative technique for pigment cell researchers.Eye development: a view from the retina pigmented epithelium.Functional genomics tools for the analysis of zebrafish pigment.Alternative splicing: a potential source of functional innovation in the eukaryotic genome.TFAP2 paralogs regulate melanocyte differentiation in parallel with MITF.Whole-genome duplication and the functional diversification of teleost fish hemoglobins.Zebrafish: a model system for the study of eye genetics.Differential evolution of duplicated medakafish mitf genes.Mechanisms for reaching the differentiated state: Insights from neural crest-derived melanocytes.Melanoma biology and the promise of zebrafish.Minimal contribution of ERK1/2-MAPK signalling towards the maintenance of oncogenic GNAQQ209P-driven uveal melanomas in zebrafish
P2860
Q24315752-A503A515-2342-4097-81E0-240DAD7FF22CQ27348522-3E673893-6C6E-4CFF-8389-764E51D2775CQ28545009-66D1A907-7C5F-477A-80D7-F5E47EF82023Q28606495-7A1BA700-F20E-40B5-A9F8-70ADBFCD7FE0Q28757593-79F35E97-7D0C-4CF6-954F-2CC3507F2102Q30360130-B1D2EB88-2A86-491A-87D1-B46184043D80Q30479083-A0AEE445-DE33-4ACF-AF3B-8E63C6C6519CQ30480811-612B2F57-F154-4DD9-B8EC-0196A603B58CQ30502839-D3A46A52-F110-4F3C-BFB7-15D0698540A1Q31018087-83357AA9-F7A6-4E51-AB5C-CC3FD6D184EEQ33211247-3596829C-39EF-4C6F-A249-ED9942AC6997Q33247353-B7A0EFB6-8256-4A74-8AC4-C68B4268387BQ33270511-1ECC4377-3BF5-4BAF-AAE5-68C7AA287703Q33499549-5B6A9457-CB4E-42B2-8234-C65E09BCE578Q33730665-432849CA-5594-4476-B5B1-15070CA93DA1Q33897650-54F97461-D012-4BE5-8266-964B3727CBDDQ33979831-159607E3-6986-4ECE-8652-0D538049E617Q34016272-96EE1887-60BF-42BE-9291-9D9F97080A17Q34061704-5DC66E3E-BFF5-46AF-A154-E98507043DCDQ34430149-923F3A54-AD29-4A4C-870F-2CB3878885A4Q34472211-BF8CEDEF-2B78-4625-857B-9464A2163D70Q34615189-D2478017-8FEF-40E2-B5BA-F7A0904F1515Q34617968-D22ADA73-0876-4320-BE16-E68BBFF92C80Q34644747-7E8301FE-83E4-4C74-87EE-AE2FCD2B3CDFQ34872727-EB96B1A6-F156-443F-B0AC-56FD51F356A2Q34872754-5EA414C4-0EF7-4B51-8995-BE79682D1EE0Q34974458-D276B9B1-A8EC-4955-8ABE-28331374FF32Q34988378-49A98614-F18E-48CA-BF15-A6C2B4F29A86Q35624848-10A696EA-7F47-4D8F-8C77-FAFE78E40DBBQ35626419-16DE16EB-1128-4121-9078-9DBCD84B350DQ35819839-EEC60F29-5592-43FE-9712-B6371D8451C2Q35882819-AF78935B-1AFE-4CE9-AD4F-822775CEFD65Q36090387-A11E3D60-AF1A-4D55-872E-6C41E70888C2Q36294018-36BA2541-4114-41BC-B10C-AA5C9DE3F122Q36475646-7A62C9D8-1169-4E41-B052-557F0BFDE7E8Q36503151-81DC2644-9FC7-47E5-9711-1DF6CA6BF1A4Q36916235-64DCF2CE-B4C2-402F-95AD-008DDF7A8ADCQ37303304-F5C546F5-0E9E-454F-BBDB-A2A9AFA34305Q37365611-061E2B59-6E18-470F-8FBA-A81FF6295DF0Q37457622-76988B36-9003-4877-9F6F-FE7E59FE4AAC
P2860
Duplicate mitf genes in zebrafish: complementary expression and conservation of melanogenic potential.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh
2001年學術文章
@zh-hant
name
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@en
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@nl
type
label
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@en
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@nl
prefLabel
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@en
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@nl
P2093
P356
P1476
Duplicate mitf genes in zebraf ...... tion of melanogenic potential.
@en
P2093
P304
P356
10.1006/DBIO.2001.0379
P407
P577
2001-09-01T00:00:00Z