PUBLICATION

Characterization of the RNA-binding protein Musashi1 in zebrafish

Authors

Shibata, S., Umei, M., Kawahara, H., Yano, M., Makino, S., and Okano, H.

ID

ZDB-PUB-120326-17

Date

2012

Source

Brain research 1462: 162-173 (Journal)

Registered Authors

Makino, Shinji

Keywords

RNA-binding protein (RBP), Musashi, zebrafish, neural development

MeSH Terms

Molecular Sequence Data
Phylogeny
Epitopes/genetics
RNA/genetics
Animals
Zebrafish/genetics*
Zebrafish Proteins/genetics*
Zebrafish Proteins/metabolism
Real-Time Polymerase Chain Reaction
Species Specificity
Humans
Nerve Tissue Proteins/genetics*
Nerve Tissue Proteins/metabolism
In Situ Hybridization
Amino Acid Sequence
RNA Splicing
RNA-Binding Proteins/genetics*
RNA-Binding Proteins/metabolism
DNA Primers
DNA, Complementary/biosynthesis
DNA, Complementary/genetics

(all 21)

PubMed

22429745 Full text @ Brain Res.

Abstract

Musashi (Msi) is an evolutionarily conserved gene family of RNA-binding proteins (RBPs) that is preferentially expressed in the nervous system. The first member of the Msi family was identified in Drosophila. Drosophila Msi plays an important role in regulating asymmetric cell division of the sensory organ precursor cells. The mammalian orthologs, including human and mouse Musashi1 (Msi1), are neural RBPs that are strongly expressed in fetal and adult neural stem/progenitor cells (NS/PCs). Mammalian Msi1 contributes to self renewal of NS/PCs through translational regulation of several target mRNAs. In this study, the zebrafish Msi ortholog zMsi1 was identified and characterized. The normal spatial and temporal expression profiles for both protein and mRNA were determined. A series of splice variants were detected. Overall, zMsi1 was strongly expressed in neural tissue in early stages of development and exhibited similarity to mammalian Msi1 expression patterns. To reveal the in vivo function of zMsi1, morpholinos against Msi1 were introduced into one-cell stage zebrafish embryos. Knock down of zmsi1 frequently resulted in aberrant formation of the Central Nervous System (CNS). These results suggest that Msi1 plays roles in CNS development in vertebrates.

Genes / Markers

Figures

Show all Figures

Expression

Phenotype

Fish	Conditions	Stage	Phenotype	Figure
RW + MO1-msi1b	standard conditions	Long-pec	eye decreased size, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	eye immature, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	head decreased size, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	locomotion involved in locomotory behavior disrupted, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	pericardium edematous, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	post-vent region decreased length, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	whole organism decreased length, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Long-pec	whole organism increased curvature, abnormal	Fig. 7
RW + MO1-msi1b	standard conditions	Protruding-mouth	whole organism viability, abnormal	Fig. 7
RW + MO2-msi1b	standard conditions	Long-pec	eye decreased size, abnormal	Fig. 7

1 - 10 of 19

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Mutations / Transgenics

Allele	Construct	Type	Affected Genomic Region
knu3Tg	Tg(elavl3:EGFP)	Transgenic Insertion

Human Disease / Model

Sequence Targeting Reagents

Target	Reagent	Reagent Type
msi1b	MO1-msi1b	MRPHLNO
msi1b	MO2-msi1b	MRPHLNO

Fish

Fish
knu3Tg
knu3Tg + MO1-msi1b
RW
RW + MO1-msi1b
RW + MO2-msi1b

Antibodies

Orthology

Gene	Orthology
msi1b

Engineered Foreign Genes

Marker	Marker Type	Name
EGFP	EFG	EGFP

Mapping

Shibata et al., 2012 ZDB-PUB-120326-17 PMID:22429745

Characterization of the RNA-binding protein Musashi1 in zebrafish

Shibata et al., 2012

ZDB-PUB-120326-17
PMID:22429745