Hybrid-genome sequence analysis of Enterobacter cloacae FACU and morphological characterization: insights into a highly arsenic-resistant strain

IF 3.9 4区 生物学 Q1 GENETICS & HEREDITY Functional & Integrative Genomics Pub Date : 2024-09-25 DOI:10.1007/s10142-024-01441-9
Abdelhadi A. Abdelhadi, Nagwa I. Elarabi, Saifeldeen M. Ibrahim, Mostafa A. Abdel-Maksoud, Heba A. R. Abdelhaleem, Saeedah Almutairi, Abdul Malik, Bushra Hafeez Kiani, Ahmed R. Henawy, Asmaa A. Halema
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Abstract

Many organisms have adapted to survive in environments with high levels of arsenic (As), a naturally occurring metalloid with various oxidation states and a common element in human activities. These organisms employ diverse mechanisms to resist the harmful effects of arsenic compounds. Ten arsenic-resistant bacteria were isolated from contaminated wastewater in this study. The most efficient bacterial isolate able to resist 15,000 ppm Na2HAsO4·7H2O was identified using the 16S rRNA gene and whole genome analysis as Enterobacter cloacae FACU. The arsenic E. cloacae FACU biosorption capability was analyzed. To further unravel the genetic determinants of As stress resistance, the whole genome sequence of E. cloacae FACU was performed. The FACU complete genome sequence consists of one chromosome (5.7 Mb) and two plasmids, pENCL 1 and pENCL 2 (755,058 and 1155666 bp, respectively). 7152 CDSs were identified in the E. cloacae FACU genome. The genome consists of 130 genes for tRNA and 21 for rRNAs. The average G + C content was found to be 54%. Sequencing analysis annotated 58 genes related to resistance to many heavy metals, including 16 genes involved in arsenic efflux transporter and arsenic reduction (five arsRDABC genes) and 42 genes related to lead, zinc, mercury, nickel, silver, copper, cadmium and chromium in FACU. Scanning electron microscopy (SEM) confirmed the difference between the morphological responses of the As-treated FACU compared to the control strain. The study highlights the genes involved in the mechanism of As stress resistance, metabolic pathways, and potential activity of E. cloacae FACU at the genetic level.

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衣腔肠杆菌 FACU 的杂交基因组序列分析和形态特征:对高砷抗性菌株的认识。
砷是一种天然存在的具有各种氧化态的类金属,也是人类活动中的常见元素。这些生物利用不同的机制来抵御砷化合物的有害影响。本研究从受污染的废水中分离出 10 种抗砷细菌。通过 16S rRNA 基因和全基因组分析,确定了能抵抗 15,000 ppm Na2HAsO4-7H2O 的最有效细菌分离物为 Enterobacter cloacae FACU。分析了 E. cloacae FACU 的砷生物吸附能力。为进一步揭示抗砷胁迫的遗传决定因素,对 E. cloacae FACU 进行了全基因组测序。FACU 的全基因组序列由一条染色体(5.7 Mb)和两个质粒 pENCL 1 和 pENCL 2(分别为 755 058 和 1155666 bp)组成。在 E. cloacae FACU 基因组中发现了 7152 个 CDS。基因组包括 130 个 tRNA 基因和 21 个 rRNA 基因。平均 G + C 含量为 54%。测序分析注释了 FACU 中与抗多种重金属有关的 58 个基因,包括参与砷外排转运体和砷还原的 16 个基因(5 个 arsRDABC 基因),以及与铅、锌、汞、镍、银、铜、镉和铬有关的 42 个基因。扫描电子显微镜(SEM)证实,与对照菌株相比,经砷处理的 FACU 的形态反应存在差异。该研究从基因水平上突出了参与丁香杆菌 FACU 抗砷胁迫机制、代谢途径和潜在活性的基因。
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来源期刊
CiteScore
3.50
自引率
3.40%
发文量
92
审稿时长
2 months
期刊介绍: Functional & Integrative Genomics is devoted to large-scale studies of genomes and their functions, including systems analyses of biological processes. The journal will provide the research community an integrated platform where researchers can share, review and discuss their findings on important biological questions that will ultimately enable us to answer the fundamental question: How do genomes work?
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