posted on 2024-11-23, 22:24authored byUniversity of North Texas
Advances in assembly algorithms have allowed diverse strategies of genome construction to become available. The use of a hybrid assembler (run with paired-end short read data and short read-derived super-reads) can provide a starting set of contigs from which a high quality assembly can be made, however short read genomic DNA reads do not often give the coverage to assemble contigs large enough for accurate scaffolding and eventual super-scaffolding. This becomes an even bigger challenge when working with highly heterozygous species, as haplotigs contaminate the already-limited template pool that can be used for scaffolding and gap-filling. This project's goal is to use an original strand-specific RNA seq data set to improve a meta-assembly of alternative oilseed crop Physaria fendleri, addressing issues with heterozygosity and taking advantage of reference-based methods. This processed assembly will then be used for analysis of a transcriptomics experiment looking at the effect of inhibiting fatty acid elongation on central carbon metabolism.
It is recommended to cite the accession numbers that are assigned to data submissions, e.g. the GenBank, WGS or SRA accession numbers. If individual BioProjects need to be referenced, state that "The data have been deposited with links to BioProject accession number PRJNA951248 in the NCBI BioProject database (https://www.ncbi.nlm.nih.gov/bioproject/)."