| Literature DB >> 26692342 |
Sabah AlMomin1,1, Vinod Kumar1,1, Sami Al-Amad1,1, Mohsen Al-Hussaini1,1, Talal Dashti1,1, Khaznah Al-Enezi1,1, Abrar Akbar1,1.
Abstract
Silver pomfret, Pampus argenteus, is a fish species from coastal waters. Despite its high commercial value, this edible fish has not been sequenced. Hence, its genetic and genomic studies have been limited. We report the first draft genome sequence of the silver pomfret obtained using a Next Generation Sequencing (NGS) technology. We assembled 38.7 Gb of nucleotides into scaffolds of 350 Mb with N50 of about 1.5 kb, using high quality paired end reads. These scaffolds represent 63.7% of the estimated silver pomfret genome length. The newly sequenced and assembled genome has 11.06% repetitive DNA regions, and this percentage is comparable to that of the tilapia genome. The genome analysis predicted 16 322 genes. About 91% of these genes showed homology with known proteins. Many gene clusters were annotated to protein and fatty-acid metabolism pathways that may be important in the context of the meat texture and immune system developmental processes. The reference genome can pave the way for the identification of many other genomic features that could improve breeding and population-management strategies, and it can also help characterize the genetic diversity of P. argenteus.Entities:
Keywords: Next Generation Sequencing; Pampus argenteus; Zobaidy; annotation de génome; assemblage de génome; assemblage de novo; de novo assembly; genome annotation; genome assembly; genome structure; silver pomfret; séquençage de nouvelle génération
Mesh:
Year: 2015 PMID: 26692342 DOI: 10.1139/gen-2015-0056
Source DB: PubMed Journal: Genome ISSN: 0831-2796 Impact factor: 2.166