Alternative splicing (AS) selects different alternative splice sites and produces a variety of transcripts with different exon/intron combinations, which may result in multiple protein isoforms. The splicing signals include cis-elements… Click to show full abstract
Alternative splicing (AS) selects different alternative splice sites and produces a variety of transcripts with different exon/intron combinations, which may result in multiple protein isoforms. The splicing signals include cis-elements and RNA structures; however, the mechanisms of AS regulation in plants have yet to be elucidated. Previous studies have shown that in Platanus acerifolia, the FLOWERING LOCUS T (FT) homolog PaFT has a unique and complex AS pattern, in which most of the splice forms of PaFT involve the first and/or second intron, and the FD homolog PaFDL1 produces two transcripts via AS, whereas the other FT homolog PaFTL is not regulated by AS. In this study, the regulatory mechanism of the AS of PaFT was demonstrated to be conserved in different plant species. To define the distribution of the AS regulatory signals, the intron-swap, site-directed mutagenesis of alternative splice sites, and deletion experiment were performed. For the PaFT gene, all the signals that regulate the AS of the first intron were located within this intron, while the usage of the first alternative splice site in the second intron was determined by the first intron. Meanwhile, the AS of PaFDL1 might be co-regulated by exons and the first intron. Additionally, the first alternative splice site and adjacent region in PaFT intron 1 might contain cis-elements and/or RNA structures that affect the use of the other sites. This study had provided a deeper insight into the distribution of AS signals in plants, namely the AS signals of different splice sites might exist in the intron where the sites were present, and might also be distributed in exons or other introns.
               
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