Exploitation of a genomic library of Passiflora edulis f. flavicarpa using BAC-end sequencing

Yellow passion fruit (Passiflora edulis f. flavicarpa) is of considerable economic importance to Brazil. It is used to produce juice concentrate and also marketed for consumption as a fresh fruit. In the pharmaceutical industry, it is used to produce passiflora extract. The aim of this study was to explore the BAC (Bacterial Artificial Chromosome) genomic library (Ped-B-Flav) using BAC-end sequencing (BES) to provide some initial insights into the composition and organization of the species genome, and to generate new candidates for molecular markers. Altogether, 9,979 sequencing reactions were performed, with an average efficiency of 89 %, resulting in 8,821 high-quality BES, of average length ranging from 100 bp to 1255 bp, and consisting of an average 596 bp, totaling some 5.7 Mb of genomic information. In all, we identified 610 potential new microsatellite markers. Tetranucleotide motifs (28.9%) were the most abundant and AATT was the most frequently observed motif, with 131 occurrences. We identified and classified 4,394 (19.69 %) repetitive elements. Retrotransposon gypsy (10.8%) and copia-like (7.93%) elements were the most abundant. Furthermore, we found 767 (8.7 %) sequences very similar to those of protein coding regions. These sequences were classified and annotated according to gene ontology controlled vocabulary. Comparative genomic mapping revealed three regions showing microsynteny with the genome of Populus trichocarpa, one with Vitis vinifera genome and one with the Arabdopisis thaliana genome. In addition it revealed a series of rearranged regions in comparison to the reference genomes. This study showed that Passiflora edulis BES form an excellent source of information on the genome of the species, especially in regard to genetic diversity, identification of transposable elements and potential for the development of new genetic markers. It was also possible, using these sequences, to identify regions showing microsynteny with other plant species. (AU)