A highly contiguous genome sequence of Alternaria porri isolate Apn-Nashik causing purple blotch disease in onion.

IF 1.9 Q3 GENETICS & HEREDITY BMC genomic data Pub Date : 2024-11-05 DOI:10.1186/s12863-024-01276-0

Richa Sharma, Rukmini Mishra, Raj Kumar Joshi

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Abstract

Objectives: Purple blotch, caused by the necrotrophic pathogen Alternaria porri, is one of the most economically significant diseases of onion and allied crops. While the virulent nature of many Alternaria spp. has been identified, the pathogenic repertoire of A. porri is still unknown. The objective of this work was to sequence the genome of A. porri using the PacBio SMRT sequencing strategy and analyse the repertoire of CAZymes, secondary metabolites, secretome and effectors in A. porri. Our research group is working to identify onion germplasm with purple blotch resistance and to understand the genetics of the pathogen. The reported de-novo assembly will contribute to the analysis of potential variants and the gene repertoire contributing to the virulence and pathogenicity of the purple blotch pathogen.

Data description: Long-read sequencing on a PacBio Sequel II system resulted in a 32.98 Mb (20 contigs) assembly with an N50 of 2, 657, 264 bp, the longest contig length of 5.05 Mb, and a GC content of 51.06%. The Benchmarking Universal Single-Copy Orthologs (BUSCO) analysis resulted in 99.7% genome completeness at the Dothideomycetes lineage, representing a high-quality genome assembly. AUGUSTUS ab initio analysis resulted in 9875 protein-coding genes. Of the 6776 pathogenicity-related genes, 537 genes with effector functions were identified. Likewise, the glycoside hydrolases (434) were the most dominant group of the total 837 predicted CAZymes. The assembled genome of A. porri showed distinctive similarities to the genomes of A. alternata and A. brassicicola, the causal agents of leaf blight of onion and leaf spot of Brassica crops, respectively.

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导致洋葱紫斑病的猪交链孢属（Alternaria porri）分离株 Apn-Nashik 的高度连续基因组序列。

目的：由坏死性病原菌猪链孢属（Alternaria porri）引起的紫斑病是洋葱及其相关作物中最具经济意义的病害之一。虽然已经确定了许多 Alternaria 属的致病性，但 A. porri 的致病性仍然未知。这项工作的目的是利用 PacBio SMRT 测序策略对 A. porri 的基因组进行测序，并分析 A. porri 的 CAZymes、次生代谢物、分泌物组和效应器。我们的研究小组正致力于鉴定具有紫斑病抗性的洋葱种质，并了解病原体的遗传学。所报告的全新组装将有助于分析潜在的变体以及有助于紫斑病病原体毒力和致病性的基因库：在 PacBio Sequel II 系统上进行长线程测序后，得到了 32.98 Mb（20 个等位基因）的组装结果，N50 为 2,657,264 bp，最长等位基因长度为 5.05 Mb，GC 含量为 51.06%。通用单拷贝同源物基准（BUSCO）分析结果表明，Dothideomycetes 品系的基因组完整度为 99.7%，代表了高质量的基因组组装。AUGUSTUS 自证分析得出了 9875 个蛋白质编码基因。在 6776 个致病性相关基因中，发现了 537 个具有效应功能的基因。同样，在总共 837 个预测的 CAZymes 中，糖苷水解酶（434 个）是最主要的一组。所组装的 A. porri 基因组与 A. alternata 和 A. brassicicola（分别是洋葱叶枯病和芸苔属作物叶斑病的病原菌）的基因组显示出明显的相似性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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BMC genomic data

CiteScore

4.90

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0.00%

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