AlliumDB:薤白比较和功能基因组学的中心门户。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-12-29 eCollection Date: 2024-02-01 DOI:10.1093/hr/uhad285
Pengtao Yang, Yu Yuan, Chao Yan, Yue Jia, Qi You, Lingling Da, Ao Lou, Bingsheng Lv, Zhonghua Zhang, Yue Liu
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引用次数: 0

摘要

葱属(Allium)属于植物学天南星科(Amaryllidaceae),包括洋葱、大蒜、束葱和韭菜等具有重要经济价值的作物,可用作蔬菜、香料和传统药物。葱属植物基因组庞大,阻碍了对重要农艺性状的遗传分析和分子育种。随着基因组、重测序、转录组和表型数据的不断积累,对综合性 Allium 数据库的需求日益增加。在此,我们提出了一个用户友好型数据库 AlliumDB (https://allium.qau.edu.cn),作为整合公共数据和内部数据的功能基因组学中心。该数据库包含所有目前可用的薤属物种的核基因组和细胞器基因组,并根据基因本体(GO)和京都基因与基因组百科全书(KEGG)分析、基因选集、基因家族、蛋白质家族(Pfam)和非编码 RNA 家族(Rfam)对基因进行了全面注释。转录组和变异图谱被整合到动态可视化工具中。我们为全球收集的数百种薤白种质拍摄了表型照片,并生成了性状记录,这些记录都包含在数据库中。我们将 JBrowse 用于基因结构、RNA 测序数据和变异数据的可视化。基本局部比对搜索工具(BLAST)、序列提取、富集和主题分析等分析工具可用于探索潜在的基因功能。该数据库包含全面的 Allium 基因型和表型数据集。随着社区为薤白种质组装新基因组并生成重测序数据,该数据库将得到改进,并根据这些多组学数据和比较基因组研究不断更新。我们期待 AlliumDB 数据库成为研究薤白作物的关键资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AlliumDB: a central portal for comparative and functional genomics in Allium.

The genus Allium belongs to the botanical family Amaryllidaceae and includes economically important crops such as onion, garlic, bunching onion, and leek, used as vegetables, spices, and traditional medicines. The large sizes of Allium genomes hamper the genetic dissection of agronomically important traits and molecular breeding. With the growing accumulation of genomic, resequencing, transcriptome, and phenotypic data, the demand for an integrative Allium database is increasing. Here we present a user-friendly database, AlliumDB (https://allium.qau.edu.cn), as a functional genomics hub integrating public and in-house data. The database contains all currently available nuclear and organelle genomes for Allium species, with genes comprehensively annotated based on Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, orthology, gene families, protein families (Pfam), and non-coding RNA families (Rfam). Transcriptome and variation profiles are integrated into dynamic visualization tools. We took phenotypic photographs and generated trait records for hundreds of Allium germplasms collected worldwide, which are included in the database. We incorporated JBrowse for the visualization of gene structures, RNA sequencing data, and variation data. Analysis tools such as the basic local alignment search tool (BLAST), sequence fetch, enrichment, and motif analyses are available to explore potential gene functions. This database incorporates comprehensive Allium genotypic and phenotypic datasets. As the community assembles new genomes and generates resequencing data for Allium germplasms, the database will be improved and continuously updated with these multi-omics data and comparative genomic studies. We expect the AlliumDB database to become a key resource for the study of Allium crops.

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