An improved reference genome and first organelle genomes of Quercus suber

IF 1.9 3区生物学 Q2 FORESTRY Tree Genetics & Genomes Pub Date : 2023-11-18 DOI:10.1007/s11295-023-01624-8

Ana Usié, Octávio Serra, Pedro M. Barros, Pedro Barbosa, Célia Leão, Tiago Capote, Tânia Almeida, Leandra Rodrigues, Isabel Carrasquinho, Joana B. Guimarães, Diogo Mendoça, Filomena Nóbrega, Conceição Egas, Inês Chaves, Isabel A. Abreu, Nelson J. M. Saibo, Liliana Marum, Maria Carolina Varela, José Matos, Fernanda Simões, Célia M. Miguel, M. Margarida Oliveira, Cândido P. Ricardo, Sónia Gonçalves, António Marcos Ramos

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Abstract

Cork oak (Quercus suber L.) is an ecologically and economically important evergreen tree species native to the Mediterranean region and widespread in southwest Europe and northwest Africa. An improved genome assembly of cork oak using a combination of Illumina and PacBio sequencing is presented in this study. The assembled genome contains 2351 scaffolds longer than 1000 bp, accounting for 765.7 Mbp of genome size, L90 of 755, and a N50 of 1.0 Mbp, with 40,131 annotated genes. The repetitive sequences constitute 53.6% of the genome. The genome sequences of chloroplast and mitochondrion were determined for the first time, with a genome size of 161,179 bp and 531,858 bp, respectively. Phylogenetic analysis based on complete chloroplast genome sequence showed that Q. suber is closely related to Quercus variabilis, two cork-producing species with commercial use. All data generated are available through the public databases, being ready to be used without restrictions. This study provides an improved nuclear genome assembly together with the organelle genomes of cork oak. These resources will be useful for further breeding strategies and conservation programs and for comparative genomic studies in oak species.

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栎亚种改良的参考基因组和第一细胞器基因组

栓皮栎(Quercus suber L.)是一种生态和经济上重要的常绿树种，原产于地中海地区，广泛分布于欧洲西南部和非洲西北部。利用Illumina和PacBio测序的组合，提出了一种改进的栎树基因组组装。组装的基因组包含2351个长度大于1000 bp的支架，占基因组大小765.7 Mbp, L90为755,N50为1.0 Mbp，有40131个注释基因。重复序列占基因组的53.6%。首次测定了叶绿体和线粒体的基因组序列，基因组大小分别为161179 bp和531858 bp。基于叶绿体全基因组序列的系统发育分析表明，Q. suber与两种具有商业用途的软木生产物种Quercus variabilis亲缘关系密切。所有生成的数据都可以通过公共数据库获得，随时可以不受限制地使用。本研究提供了一种改进的栎树核基因组组装和细胞器基因组。这些资源将有助于进一步的育种策略和保护计划以及橡树物种的比较基因组研究。

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来源期刊

Tree Genetics & Genomes 生物-林学

CiteScore

4.40

自引率

4.20%

发文量

审稿时长

2 months

期刊介绍： Tree Genetics and Genomes is an international, peer-reviewed journal, which provides for the rapid publication of high quality papers covering the areas of forest and horticultural tree genetics and genomics. Topics covered in this journal include: Structural, functional and comparative genomics Evolutionary, population and quantitative genetics Ecological and physiological genetics Molecular, cellular and developmental genetics Conservation and restoration genetics Breeding and germplasm development Bioinformatics and databases Tree Genetics and Genomes publishes four types of papers: (1) Original Paper (2) Review (3) Opinion Paper (4) Short Communication.