Chromosome-scale genome assembly of Japanese pear (Pyrus pyrifolia) variety 'Nijisseiki'.

IF 3.9 2区 生物学 Q1 GENETICS & HEREDITY DNA Research Pub Date : 2021-05-02 DOI:10.1093/dnares/dsab001
Kenta Shirasawa, Akihiro Itai, Sachiko Isobe
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引用次数: 20

Abstract

We analyzed the genome sequence of a Japanese pear (Pyrus pyrifolia) to facilitate its genetics and genomics as well as breeding programs, in which a variety 'Nijisseiki' with superior flesh texture has been used as a parent for most Japanese pear cultivars. De novo assembly of long sequence reads covered 136× of the Japanese pear genome and generated 503.9 Mb contigs consisting of 114 sequences with an N50 value of 7.6 Mb. Contigs were assigned to Japanese pear genetic maps to establish 17 chromosome-scale sequences. In total, 44,876 high-confidence protein-encoding genes were predicted, 84.3% of which were supported by predicted genes and transcriptome data from Japanese pear relatives. As expected, evidence of genome-wide duplication was observed, consistent with related species. This is the first chromosome-scale genome sequence analysis reported for Japanese pear, and this resource will support breeding programs and provide new insights into the physiology and evolutionary history of Japanese pear.

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日本梨(Pyrus pyrifolia)品种“nijisisiki”染色体尺度基因组组装。
本文分析了一种日本梨(Pyrus pyrifolia)的基因组序列,为其遗传学和基因组学以及育种计划提供了便利,其中一个具有优越果肉质地的品种“nijisisiki”已被用作大多数日本梨品种的亲本。长序列reads从头组装覆盖了日本梨基因组的136x,生成了由114个序列组成的503.9 Mb的contigs, N50值为7.6 Mb。对日本梨遗传图谱进行配位,建立了17个染色体尺度序列。共预测了44,876个高置信度蛋白编码基因,其中84.3%得到了来自日本梨近缘种的预测基因和转录组数据的支持。正如预期的那样,观察到全基因组重复的证据,与相关物种一致。这是首次报道的日本梨染色体规模的基因组序列分析,这一资源将为育种计划提供支持,并为日本梨的生理和进化历史提供新的见解。
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来源期刊
DNA Research
DNA Research 生物-遗传学
CiteScore
6.00
自引率
4.90%
发文量
39
审稿时长
4.5 months
期刊介绍: DNA Research is an internationally peer-reviewed journal which aims at publishing papers of highest quality in broad aspects of DNA and genome-related research. Emphasis will be made on the following subjects: 1) Sequencing and characterization of genomes/important genomic regions, 2) Comprehensive analysis of the functions of genes, gene families and genomes, 3) Techniques and equipments useful for structural and functional analysis of genes, gene families and genomes, 4) Computer algorithms and/or their applications relevant to structural and functional analysis of genes and genomes. The journal also welcomes novel findings in other scientific disciplines related to genomes.
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