Abstract

BackgroundEtl4lacZ (Enhancer trap locus 4) and SktGt (Sickle tail) are lacZ reporter gene integrations into the same locus on mouse chromosome 2 targeting a gene that is expressed in the notochord of early embryos and in multiple epithelia during later development. Both insertions caused recessive mutations that resulted exclusively in mild defects in the caudal vertebral column. Since notochord-derived signals are essential for formation of the vertebral column the phenotypes suggested that the lacZ insertions interfered with some notochord-dependent aspect of vertebral development. As both insertions occurred in introns it was unclear whether they represent hypomorphic alleles or abolish gene function. Here, we have generated a definitive null allele of the Skt/Etl4 gene and analysed homozygous mutants.ResultsWe have introduced loxP sites into three positions of the gene based on additional upstream exons that we identified, and deleted approximately 870 kb of the locus by a combination of inter- and intra-chromosomal Cre-mediated recombinations in the female germ line of mice. This deletion removes about 90 % of the coding region and results in the loss of the SKT/ETL4 protein. Similar to the Etl4lacZ and SktGt alleles our deletion mutants are viable and fertile and show only mild defects in caudal vertebrae due to abnormal intervertebral disc development, although with higher penetrance. No other tissue with Skt/Etl4 expression that we analysed showed obvious defects.ConclusionThe complete loss of Skt/Etl4 function affects only development of caudal notochord derivatives and is compensated for in its other expression domains.Electronic supplementary materialThe online version of this article (doi:10.1186/s12863-015-0302-0) contains supplementary material, which is available to authorized users.

Highlights

  • Etl4lacZ (Enhancer trap locus 4) and SktGt (Sickle tail) are β-Galactosidase gene (lacZ) reporter gene integrations into the same locus on mouse chromosome 2 targeting a gene that is expressed in the notochord of early embryos and in multiple epithelia during later development

  • Identification of transcripts derived from the sickle tail locus (Skt)/enhancer trap locus 4 (Etl4) locus To identify the gene detected by the Etl4lacZ insertion we isolated and sequenced overlapping bacterial artificial chromosome (BAC) and P1 artificial chromosome (PAC) clones of the genomic Etl4 region on mouse chromosome 2

  • Within this genomic region we identified two cDNA clones, mpm09263 and mbg07236, from the Kazusa Mouse cDNA Project [www.kazusa.or.jp/rouge [22], which contained exons flanking both, the Etl4lacZ and the SktGt insertions identified by Semba et al [20]

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Summary

Introduction

Etl4lacZ (Enhancer trap locus 4) and SktGt (Sickle tail) are lacZ reporter gene integrations into the same locus on mouse chromosome 2 targeting a gene that is expressed in the notochord of early embryos and in multiple epithelia during later development. Both insertions caused recessive mutations that resulted exclusively in mild defects in the caudal vertebral column. Since notochord-derived signals are essential for formation of the vertebral column the phenotypes suggested that the lacZ insertions interfered with some notochord-dependent aspect of vertebral development As both insertions occurred in introns it was unclear whether they represent hypomorphic alleles or abolish gene function. Lineage tracing studies revealed that notochord cells persist in the adult spine solely within the NP [11, 12], a gelatinous tissue in the centre of the IVD that produces collagen II and proteoglycans, and serves as a shock-absorbing structure between vertebrae

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