Dinoflagellate algae are considered some of the most complicated organisms owing to their unusual genomic characteristics and novel gene regulatory mechanisms. Here, we extracted information from the genomic sequences of the marine dinoflagellate Prorocentrum minimum using GS FLX pyrosequencing technology. We obtained 473 Mb of sequences from 1,379,588 reads, which generated 16,599 contigs after assembly. Among the annotated sequences (4902 contigs, 30 %), BLAST analyses showed that 28.95 % (4731 contigs) of the genome fragments were homologous with bacterial sequences and only 0.96 % (156 contigs) had eukaryotic origins. However, analysis of bacterial 16S/23S rDNA sequences in the P. minimum genome revealed that the organism likely acquired this genetic material from symbiotic bacteria, possibly through horizontal gene transfer, thus demonstrating a definitive association between bacteria and P. minimum. Moreover, a specific consensus pattern was defined for dinoflagellate spliced leader (SL) sequences, a well-known genetic marker of dinoflagellates. Further, comparisons of the various genomic proportions with respect to nuclear, mitochondrial, and chloroplast genes revealed unique genomic features that include clusters of noncoding RNA genes and tandem repeats. Taken together, this study details the salient features of noncoding RNA genes in P. minimum and provides further insights into the genome of this and other dinoflagellates.

• 出版日期2016-2