Experimental approaches to studying the nature and impact of splicing variation in zebrafish

M.C. Keightley, S Markmiller, C. G. Love, J. E. .J Rasko, G. J. Lieschke, J. K. Heath

Research output: Chapter in Book/Report/Conference proceedingChapter (Book)Researchpeer-review

2 Citations (Scopus)

Abstract

From a fixed number of genes carried in all cells, organisms create considerable diversity in cellular phenotype through differential regulation of gene expression. One prevalent source of transcriptome diversity is alternative pre-mRNA splicing, which is manifested in many different forms. Zebrafish models of splicing dysfunction due to mutated spliceosome components provide opportunity to link biochemical analyses of spliceosome structure and function with whole organism phenotypic outcomes. Drawing from experience with two zebrafish mutants: cephalophonus (a prpf8 mutant, isolated for defects in granulopoiesis) and caliban (a rnpc3 mutant, isolated for defects in digestive organ development), we describe the use of glycerol gradient sedimentation and native gel electrophoresis to resolve components of aberrant splicing complexes. We also describe how RNAseq can be employed to examine relatively rare alternative splicing events including intron retention. Such experimental approaches in zebrafish can promote understanding of how splicing variation and dysfunction contribute to phenotypic diversity and disease pathogenesis.
Original languageEnglish
Title of host publicationMethods in Cell Biology
Subtitle of host publicationThe Zebrafish: Genetics, Genomics, and Transcriptomics
EditorsH. William Detrich, Monte Westerfield, Leonard I. Zon
Place of PublicationUSA
PublisherElsevier
Pages259-288
Number of pages29
Volume135
Edition4th
ISBN (Electronic)9780128034880
ISBN (Print)9780128034743
DOIs
Publication statusPublished - 2016

Publication series

NameMethods in Cell Biology
PublisherElservier
Volume135
ISSN (Print)0091-679X

Keywords

  • Alrternative splicing
  • disease models
  • intron retention
  • prpf8
  • RNAseq
  • rnpc3
  • spliceopathy
  • spliceosome
  • splicing
  • Zebrafish

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