Please use this identifier to cite or link to this item: https://doi.org/10.1534/g3.114.015842
Title: A multifunctional mutagenesis system for analysis of gene function in zebrafish
Authors: Quach H.N.B.
Tao S. 
Vrljicak P.
Joshi A.
Ruan H.
Sukumaran R. 
Varshney G.K.
LaFave M.C.
Renn J.
Jun Y.
Brocher J.
Willems B.
Sheng Y.
Rajaei F.
Roy R.V.
Lim R.S.
Mahbob N.A.B.
Balasubramaniam K.
Kwun C.
Li N.X.
Teo E.
Hung K.J.
Koh E.
Wei S.Z.
Zainal N.Z.E.B.
Li R.
Liang K.W.
Teo M.
Burgess S.M.
Winkler C. 
Emelyanov A.
Parinov S.
Sampath K. 
The Ds Screen Team
Keywords: enhanced green fluorescent protein
zebrafish protein
amino acid sequence
animal cell
animal tissue
Article
controlled study
embryo
enhancer region
female
fish genetics
gene expression
gene expression profiling
gene function
gene mutation
genome analysis
male
nonhuman
promoter region
reporter gene
site directed mutagenesis
stop codon
transgenic zebrafish
transposon
animal
antibody specificity
chromosomal mapping
fluorescence
gene expression regulation
gene locus
genetics
molecular genetics
mutation
nucleotide sequence
phenotype
procedures
zebra fish
Danio rerio
Mus
Zea mays
Animals
Base Sequence
Chromosome Mapping
Enhancer Elements, Genetic
Fluorescence
Gene Expression Profiling
Genes, Reporter
Genetic Loci
Molecular Sequence Data
Mutagenesis, Insertional
Mutation
Organ Specificity
Phenotype
Zebrafish
Zebrafish Proteins
Issue Date: 2015
Citation: Quach H.N.B., Tao S., Vrljicak P., Joshi A., Ruan H., Sukumaran R., Varshney G.K., LaFave M.C., Renn J., Jun Y., Brocher J., Willems B., Sheng Y., Rajaei F., Roy R.V., Lim R.S., Mahbob N.A.B., Balasubramaniam K., Kwun C., Li N.X., Teo E., Hung K.J., Koh E., Wei S.Z., Zainal N.Z.E.B., Li R., Liang K.W., Teo M., Burgess S.M., Winkler C., Emelyanov A., Parinov S., Sampath K., The Ds Screen Team (2015). A multifunctional mutagenesis system for analysis of gene function in zebrafish. G3: Genes, Genomes, Genetics 5 (6) : 1283-1299. ScholarBank@NUS Repository. https://doi.org/10.1534/g3.114.015842
Abstract: Since the sequencing of the human reference genome, many human disease-related genes have been discovered. However, understanding the functions of all the genes in the genome remains a challenge. The biological activities of these genes are usually investigated in model organisms such as mice and zebrafish. Large-scale mutagenesis screens to generate disruptive mutations are useful for identifying and understanding the activities of genes. Here, we report a multifunctional mutagenesis system in zebrafish using the maize Ds transposon. Integration of the Ds transposable element containing an mCherry reporter for protein trap events and an EGFP reporter for enhancer trap events produced a collection of transgenic lines marking distinct cell and tissue types, and mutagenized genes in the zebrafish genome by trapping and prematurely terminating endogenous protein coding sequences. We obtained 642 zebrafish lines with dynamic reporter gene expression. The characterized fish lines with specific expression patterns will be made available through the European Zebrafish Resource Center (EZRC), and a database of reporter expression is available online (http://fishtrap.warwick.ac.uk/). Our approach complements other efforts using zebrafish to facilitate functional genomic studies in this model of human development and disease. © 2015 Quach et al.
Source Title: G3: Genes, Genomes, Genetics
URI: https://scholarbank.nus.edu.sg/handle/10635/174646
ISSN: 2160-1836
DOI: 10.1534/g3.114.015842
Appears in Collections:Elements
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