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51.
Alternative splicing of pre-mRNA can contribute to differences between tissues or cells either by regulating gene expression or creating proteins with various functions encoded by one gene. The number of investigated alternative splice events in pig has so far been limited. In this study we have investigated alternative splice events detected in humans, in orthologous pig genes. A total of 17 genes with predicted exon skipping events were selected for further studies. The splice events for the selected genes were experimentally verified using real-time quantitative PCR analysis (qPCR) with splice-specific primers in 19 different tissues. The same splice variants as reported in humans were detected in 15 orthologous pig genes, however, the expression pattern predicted in the in silico analyses was only experimentally verified in a few cases. The results support the findings that splice events resulting in preservation of open reading frame are indicative of a functional significance of the splice variants of the gene. 相似文献
52.
The mutation causing the Silverblue color type (pp) is one of the most used recessive mutations within American mink (Neovison vison) fur farming, since it is involved in some of the popular color types such as Violet and Saphire which originate from a combination of recessive mutations. In the present study, the genomic and mRNA sequences of the melanophilin (MLPH) gene were studied in Violet, Silverblue and wild-type (wt) mink animals. Although breeding schemes and previous literature indicates that the Violet (aammpp) phenotype is a triple recessive color type involving the same locus as the Silverblue (pp) color type, our findings indicate different genotypes at the MLPH locus. Upon comparison at genomic level, we identified two deletions of the entire intron 7 and of the 5′ end of intron 8 in the sequence of the Silverblue MLPH gene. When investigating the mRNA, the Silverblue animals completely lack exon 8, which encodes 65 residues, of which 47 define the Myosin Va (MYO5A) binding domain. This may cause the incorrect anchoring of the MLPH protein to MYO5A in Silverblue animals, resulting in an improper pigmentation as seen in diluted phenotypes. Additionally, in the MLPH mRNA of wt, Violet and Silverblue phenotypes, part of intron 8 is retained resulting in a truncated MLPH protein, which is 359 residues long in wt and Violet and 284 residues long in Silverblue. Subsequently, our findings point out that the missing actin-binding domain, in neither of the 3 analyzed phenotypes affects the transport of melanosomes or the consequent final pigmentation. Moreover, the loss of the major part of the MYO5A domain in the Silverblue MLPH protein seems to be the responsible for the dilute phenotype. Based on our genomic DNA data, genetic tests for selecting Silverblue and Violet carrier animals can be performed in American mink. 相似文献
53.
Molecular evolution of a duplication: the sex-peptide (Acp70A) gene region of Drosophila subobscura and Drosophila madeirensis 总被引:2,自引:2,他引:0
In Drosophila melanogaster, the Acp70A gene, which is involved in the
postmating reactions of the female, is a single-copy gene. However, in
Drosophila subobscura, the gene is duplicated and both copies are
transcribed. To study the molecular evolution of the duplication, a 2.1- kb
fragment encompassing both copies of the duplication was sequenced for 10
lines of D. subobscura and one line of Drosophila madeirensis. Estimates of
the divergence between the two copies of the duplicated region and between
the two species studied, D. subobscura and D. madeirensis, revealed that
both copies of the Acp70a gene had evolved independently since their
duplication. The ratio of nonsynonymous to silent divergence between copies
was generally higher than one. The McDonald and Kreitman test revealed an
excess of nonsynonymous changes fixed since the duplication and before the
split of the D. subobscura and D. madeirensis lineages. These results point
to natural selection driving protein evolution after the duplication.
Specifically, adaptive evolution appears to have caused the initial
differentiation between copies of the N-terminal parts of the proteins,
while purifying selection could be responsible for the high conservation of
the C- terminal parts.
相似文献
54.