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Origin and evolution of a new retained intron on the vulcan gene in Drosophila melanogaster subgroup species

2014; NRC Research Press; Volume: 57; Issue: 10 Linguagem: Inglês

10.1139/gen-2014-0132

1480-3321

Leilei Zhan, Qiaohong Meng, Ran Chen, Yuan Yue, Yongfeng Jin,

Silk-based biomaterials and applications

Although numerous intron gains have been discovered, the mechanisms of intron creation have proven to be elusive. Previous study revealed that the vulcan gene of Drosophila melanogaster contained four exons in its coding region. In the current study, a newly created intron (Intron L) was identified on exon 2 of vulcan in D. melanogaster by comparing expression sequence tags. The RT–PCR experiment revealed that Intron L was associated with intron retention, in which two alternative transcripts of the gene differ by the inclusion or removal of an intron. It was found that Intron L was created by intronization of exonic sequence, and its donor and acceptor splice sites were created by synonymous mutation, leading to the origin of a new vulcan protein that is 22 amino acids shorter than the previously reported vulcan protein. Moreover, to track the origin of Intron L, 36 orthologous genes of species of Drosophila were cloned or annotated, and phylogenetic analysis was carried out. It indicated that the common ancestor of D. melangaster subgroup species created Intron L about 15 million years ago.