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Literature DB >> 32779569

Building the vertebrate codex using the gene breaking protein trap library.

Noriko Ichino¹, MaKayla R Serres¹, Rhianna M Urban¹, Mark D Urban¹, Anthony J Treichel¹, Kyle J Schaefbauer¹, Lauren E Tallant¹, Gaurav K Varshney^2,3, Kimberly J Skuster¹, Melissa S McNulty¹, Camden L Daby¹, Ying Wang⁴, Hsin-Kai Liao⁴, Suzan El-Rass⁵, Yonghe Ding^1,6, Weibin Liu^1,6, Jennifer L Anderson⁷, Mark D Wishman¹, Ankit Sabharwal¹, Lisa A Schimmenti^1,8,9, Sridhar Sivasubbu¹⁰, Darius Balciunas¹¹, Matthias Hammerschmidt¹², Steven Arthur Farber⁷, Xiao-Yan Wen⁵, Xiaolei Xu^1,6, Maura McGrail⁴, Jeffrey J Essner⁴, Shawn M Burgess², Karl J Clark¹, Stephen C Ekker¹.

Abstract

One key bottleneck in understanding the human genome is the relative under-characterization of 90% of protein coding regions. We report a collection of 1200 transgenic zebrafish strains made with the gene-break transposon (GBT) protein trap to simultaneously report and reversibly knockdown the tagged genes. Protein trap-associated mRFP expression shows previously undocumented expression of 35% and 90% of cloned genes at 2 and 4 days post-fertilization, respectively. Further, investigated alleles regularly show 99% gene-specific mRNA knockdown. Homozygous GBT animals in ryr1b, fras1, tnnt2a, edar and hmcn1 phenocopied established mutants. 204 cloned lines trapped diverse proteins, including 64 orthologs of human disease-associated genes with 40 as potential new disease models. Severely reduced skeletal muscle Ca2+ transients in GBT ryr1b homozygous animals validated the ability to explore molecular mechanisms of genetic diseases. This GBT system facilitates novel functional genome annotation towards understanding cellular and molecular underpinnings of vertebrate biology and human disease.

Entities: Chemical

Keywords: developmental biology; disease model; gene reversion; gene-break transposon; human genetic disorders; light sheet microscopy; protein trap; zebrafish

Mesh：

Substances：

Year: 2020 PMID： 32779569 PMCID： PMC7486118 DOI： 10.7554/eLife.54572

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.713

65 in total

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