The CRISPR system--keeping zebrafish gene targeting fresh.
about
Recent advances using zebrafish animal models for muscle disease drug discoveryA new model army: Emerging fish models to study the genomics of vertebrate Evo-DevoSensory hair cell regeneration in the zebrafish lateral line.An ensemble-averaged, cell density-based digital model of zebrafish embryo development derived from light-sheet microscopy data with single-cell resolution.Utilization of zebrafish for intravital study of eukaryotic pathogen-host interactions.Openspritzer: an open hardware pressure ejection system for reliably delivering picolitre volumes.Generation of myostatin B knockout yellow catfish (Tachysurus fulvidraco) using transcription activator-like effector nucleasesComputational and experimental approaches to reveal the effects of single nucleotide polymorphisms with respect to disease diagnosticsReal-time imaging and genetic dissection of host-microbe interactions in zebrafish.Macrophage-pathogen interactions in infectious diseases: new therapeutic insights from the zebrafish host modelHeritable and precise zebrafish genome editing using a CRISPR-Cas systemAnimal models of tuberculosis: zebrafishGenome editing using TALENs in blind Mexican Cavefish, Astyanax mexicanus.An optimized TALEN application for mutagenesis and screening in Drosophila melanogasterRole of Recombinant DNA Technology to Improve LifeRapid tumor induction in zebrafish by TALEN-mediated somatic inactivation of the retinoblastoma1 tumor suppressor rb1The necessity for in vivo functional analysis in human medical genetics.Advances in the Study of Heart Development and Disease Using Zebrafish.Allele-Specific Quantitative PCR for Accurate, Rapid, and Cost-Effective Genotyping.Elucidating cannabinoid biology in zebrafish (Danio rerio).snow white, a zebrafish model of Hermansky-Pudlak Syndrome type 5Zebrafish as a new model to study effects of periodontal pathogens on cardiovascular diseases.Membrane-myofibril cross-talk in myofibrillogenesis and in muscular dystrophy pathogenesis: lessons from the zebrafish.New and TALENted genome engineering toolbox.A tale of two models: mouse and zebrafish as complementary models for lymphatic studies.Zebrafish as a model to investigate CNS myelination.Genome editing in zebrafish: a practical overview.Nkx2.5 is Essential to Establish Normal Heart Rate Variability in the Zebrafish Embryo.Copper toxicology, oxidative stress and inflammation using zebrafish as experimental model.Disease modeling in genetic kidney diseases: zebrafish.Using engineered endonucleases to create knockout and knockin zebrafish models.TALENs mediate efficient and heritable mutation of endogenous genes in the marine annelid Platynereis dumerilii.A streamlined CRISPR pipeline to reliably generate zebrafish frameshifting alleles.Vegfc acts through ERK to induce sprouting and differentiation of trunk lymphatic progenitors.Genomic editing opens new avenues for zebrafish as a model for neurodegeneration.Genome Editing in Astyanax mexicanus Using Transcription Activator-like Effector Nucleases (TALENs).Animated images in the analysis of zebrafish behavior.Small proteins, big roles: the signaling protein Apela extends the complexity of developmental pathways in the early zebrafish embryo.Production of germ cell-deficient salmonids by dead end gene knockdown, and their use as recipients for germ cell transplantation.
P2860
Q28551915-018F194F-6F24-4EE5-8202-3BBFC1343B7DQ28650067-B8C0487D-6B59-48A7-8D6A-71D6F221519AQ30401800-B80EB26A-6D44-4057-88CB-F7CE5C81D1EFQ30845149-6EB9FF09-1241-4831-8BD3-B3531FDD3F66Q33638779-45AF0745-D166-456E-8000-410006EB088AQ33708536-B4F8D077-361D-4F54-8B7A-B5C3D23A50F0Q33731178-BD7FEFF4-11F4-44A1-A60E-C4BAA736DE0DQ33907569-ED3202F0-6FCC-4C43-957C-8EB5732A388AQ34382358-73112EF0-1DE0-445A-9FD2-88B1FEDFF6DFQ34426866-04357BD9-0AD0-4790-9D9F-A8C6CCAEB289Q34850698-0C677374-DC2D-4606-8810-E565CE20C1CBQ35164289-DE9F47EC-4CD1-4E24-AF13-B03FDEDEF2E7Q35182140-73D65367-E4E1-4DC7-9C13-6C6B74009FE2Q35848636-9643C15E-2939-45B0-8D07-4D7F677142A4Q36239956-37CC83FC-06A8-4C1B-904E-2AFCEC716233Q36273681-87ED99D8-ED12-45C5-AE7F-F9FA95F088D4Q36683908-56A819B1-00B9-4239-B352-BACC7D2268ACQ37020623-36088D52-0FAB-4B91-AA8A-3B38A923D61AQ37061245-3E8CF03D-1626-4995-BB9E-6F9575D31554Q37090161-4CEAB714-4219-4A3E-B90A-05F61232D681Q37194787-57921C13-5EAD-405D-95FE-71CB12F8F055Q37363914-3CF621FF-BE8F-46B2-887A-F255616829BFQ37522475-5962D8EB-09DF-4431-80EC-1B69826EBE55Q37662636-37F67D4D-253F-4BB4-ABD3-8CB0DA344FDCQ38214055-13B01836-3E43-4C97-BA59-F39A27A5D243Q38255026-78046FDA-433F-445A-969B-E07D0010AC88Q38665676-C70D7B2F-F4F7-419E-9260-30F379BE526AQ38725507-EA049F36-D3D2-4F98-9E51-C81894ADBF7AQ38738079-54DC46C8-44B7-4F7C-B373-8361F8896D33Q39194990-8DF58BB7-66E0-4A08-8944-64141D13550EQ39244796-77014D6B-EEC5-4019-81B4-A87892451C9BQ39318896-84E3BD16-F70C-4C59-B5FA-AC8DAD2560FAQ42093037-823B37A0-A276-4525-AC82-14270DCC0F2FQ42377401-0A9DE555-182E-4B75-B23E-2B413918D49FQ44156848-E6AF2AC7-5956-4F3E-AF77-895BF25B2ECDQ46517654-5C10D850-03E0-4B8A-B198-AA2ED13CCC05Q50421476-43D9AF46-9392-49C3-9230-DB39FC370BFAQ50655974-2039F4F3-9D59-4AE0-94A1-F3561D3EE96AQ53179618-16E04B88-6195-4BE7-8B42-E5EC6A808786
P2860
The CRISPR system--keeping zebrafish gene targeting fresh.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
The CRISPR system--keeping zebrafish gene targeting fresh.
@en
type
label
The CRISPR system--keeping zebrafish gene targeting fresh.
@en
prefLabel
The CRISPR system--keeping zebrafish gene targeting fresh.
@en
P2093
P2860
P356
P1433
P1476
The CRISPR system--keeping zebrafish gene targeting fresh.
@en
P2093
Jarryd M Campbell
Patrick R Blackburn
Stephen C Ekker
P2860
P304
P356
10.1089/ZEB.2013.9999
P577
2013-03-28T00:00:00Z