Isolation and draft genome sequence of Enterobacter asburiae strain i6 amenable to genetic manipulation.

Journal of Genomics Pub Date : 2024-01-20 eCollection Date: 2024-01-01 DOI:10.7150/jgen.91337

Akinori Kato

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Abstract

Enterobacter asburiae is a species of Gram-negative bacteria that is found in soil, water, and sewage. E. asburiae is generally considered to be an opportunistic pathogen, but has also been reported as a plant growth-promoting bacterium (PGPB), which may have beneficial effects on plant growth and development. However, genetic analysis of E. asburiae has been limited, possibly due to its redundant enzymes that digest exogenous DNA in the cell. Here, an E. asburiae strain i6 was isolated from soil in Nara, Japan. This strain was amenable to transformation and the one-step gene inactivation method based on λ Red recombinase. The transformation efficiency of the i6 strain with the 10 kb plasmid DNA pCF430 was at least four orders of magnitude higher than that of the previously sequenced E. asburiae strain ATCC 35953, which could not be transformed with the same plasmid DNA. A draft genome sequence of the i6 strain was determined and deposited into the database, allowing several factors that may determine transformation efficiency to be perturbed and tested. Together with the amenability of the i6 strain to genetic manipulation, the information from the i6 genome will facilitate characterization and fine-tuning of the beneficial and detrimental traits of this species.

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可进行遗传操作的阿斯布里亚肠杆菌 i6 菌株的分离和基因组序列草案。

阿斯布氏肠杆菌是一种革兰氏阴性细菌，存在于土壤、水和污水中。一般认为 E. asburiae 是一种机会性病原体，但也有报道称它是一种植物生长促进细菌 (PGPB)，可能对植物的生长和发育有益。然而，对 E. asburiae 的遗传分析一直很有限，这可能是由于它在细胞中消化外源 DNA 的多余酶所致。在此，我们从日本奈良的土壤中分离出了一株旭藻埃希氏菌 i6。该菌株适合转化和基于 λ Red 重组酶的一步基因失活法。i6 菌株与 10 kb 质粒 DNA pCF430 的转化效率比之前测序的 E. asburiae 菌株 ATCC 35953 至少高出四个数量级，后者无法用相同的质粒 DNA 进行转化。i6 菌株的基因组序列草案已经确定并存入数据库，从而可以对可能决定转化效率的几个因素进行扰动和测试。i6 菌株易于进行遗传操作，i6 基因组的信息将有助于鉴定和微调该物种的有益和有害性状。

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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来源期刊

Journal of Genomics

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Journal of Genomics publishes papers of high quality in all areas of gene, genetics, genomics, proteomics, metabolomics, DNA/RNA, computational biology, bioinformatics, and other relevant areas of research and application. Articles published by the journal are rigorously peer-reviewed. Types of articles include: Research paper, Short research communication, Review or mini-reviews, Commentary, Database, Software.