Project description:Musa textilis overview

Project description:Musa textilis genomic data.

Project description:Musa textilis cultivar:Inosa Genome sequencing

Project description:Musa acuminata subsp. banksii genome assembly and annotation

Project description:Musa acuminata var. zebrina (MaiaOa) genome assembly and annotation

Project description:Musa acuminata subsp. burmannicoides (Calcutta 4) genome assembly and annotation

Project description:Musa acuminata subsp. malaccensis (Pisang madu) genome assembly and annotation

Project description:Musa acuminata subsp. malaccensis (Pisang madu) genome assembly and annotation, alternate haplotype

Project description:Abaca (Musa textilis Née), an indigenous crop to the Philippines, is known to be the source of the strongest natural fiber. Despite its huge economic contributions, research on crop improvement is limited due to the lack of genomic data. In this study, the whole genome of the abaca var. Abuab was sequenced using Illumina Novaseq 6000 and Pacific Biosciences Single-Molecule Real-Time Sequel. The genome size of Abuab was estimated to be 616 Mbp based on total k-mer number and volume peak. Its genome was assembled at 65× depth, mapping 95.28% of the estimated genome size. BUSCO analysis recovered 78.2% complete BUSCO genes. A total of 33,277 gene structures were predicted which is comparable to the number of predicted genes from recently assembled Musa spp. genomes. A total of 330 Mbp repetitive elements were also mined, accounting to 53.6% of the genome length. Here we report the sequencing and genome assembly of the abaca var. Abuab that will facilitate gene discovery for crop improvement and an indispensable source for genetic diversity studies in Musa.

Project description:This dataset includes RNAseq data of 7 tissues/developmental stages of Lathyrus sativus genotype LSWT11 and 2 tissues with drought- and well-watered treatments of Lathyrus sativus genotypes LS007 and Mahateora. These data were used in the functional annotation pipeline of the Rbp1.0 genome assembly of LS007. The multi-tissue transcriptome was also used to support gene candidate identification by mRNA abundance. Also included is Hi-C sequencing data used to scaffold the assembly into pseudochromosomes