PUBLICATION

Splice blocking of zygotic sox31 leads to developmental arrest shortly after Mid-Blastula Transition and induces apoptosis in zebrafish

Authors

Hu, S.N., Yu, H., Zhang, Y.B., Wu, Z.L., Yan, Y.C., Li, Y.X., Li, Y.Y., and Li, Y.P.

ID

ZDB-PUB-120111-3

Date

2012

Source

FEBS letters 586(3): 222-228 (Journal)

Registered Authors

Keywords

sox31, MBT, apoptosis

Datasets

GEO:GSE32914

MeSH Terms

Alternative Splicing/drug effects
Animals
Apoptosis/drug effects
Apoptosis/genetics*
Blastula/cytology*
Blastula/drug effects
Blastula/metabolism*
Female
Gene Expression Regulation, Developmental/drug effects
Gene Expression Regulation, Developmental/genetics
Morpholinos/pharmacology
Mothers
RNA Splicing/drug effects*
RNA, Messenger/genetics
RNA, Messenger/metabolism
SOX Transcription Factors/genetics*
Zebrafish/embryology*
Zebrafish Proteins/genetics*
Zygote/cytology
Zygote/drug effects*
Zygote/metabolism

PubMed

22209980 Full text @ FEBS Lett.

Abstract

Here we report that splice blocking morpholinos (Sb MO) against zebrafish sox31 elicit developmental arrest, likely through creating a series of dominant negative splicing variants. Embryos injected with the Sb MO develop normally before the Mid-Blastula Transition (MBT); however, they do not initiate epiboly. Microarray analysis of mRNAs collected at the dome stage revealed that the Sb MO impairs activation of a large set of zygotic genes and reduces degradation of maternal mRNA during MBT. Furthermore, an apoptotic response occurs in Sb morphants at about 6 hpf. SoxB1 family genes including sox31 thus play an essential role for early embryos traversing the transitional stage.

Genes / Markers

Figures

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Expression

Phenotype

Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Hu et al., 2012 ZDB-PUB-120111-3 PMID:22209980

Splice blocking of zygotic sox31 leads to developmental arrest shortly after Mid-Blastula Transition and induces apoptosis in zebrafish

Hu et al., 2012

ZDB-PUB-120111-3
PMID:22209980