Comparative Genomic Analysis of Bacterial Strain PL and Detection of Sustainable Bio-Electricity Producing Features

Q4 Multidisciplinary

Scientific Journal of King Faisal University Pub Date : 2023-01-01 DOI:10.37575/b/sci/230030

Guendouz Dif, Atika Meklat, Abdelghani Zitouni

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Abstract

This study aimed to analyze the whole genome of the bacterial strain PL, isolated from pond sediment, to evaluate its genetic characteristics in the degradation of waste and toxic substrates and the generation of bioelectricity. This was compared to the type strain of the bacterial species Geobacter sulfurreducens (G. sulfurreducens) (PCA) and the strain KN400. Genomic taxonomy on the TYGS platform established the affiliation of strain PL with the bacterial species G. sulfurreducens. Subsequently, a genomic study of strains PL, PCA, and KN400 was performed using various bioinformatics tools. These included the study of genes associated with functional categories (COG) through genome annotation using the RAST server, followed by gene identification using the Prokka program to discover and identify genes related to electricity production. The results of the genomic analysis of the PL strain showed that it possesses many genes necessary for generating electric current. These included genes related to the formation of thick biofilms, adhesion to the anode of microbial fuel cells (MFCs), oxidation of various substrates and environmental pollutants, and extracellular electron transfer. Overall, the obtained results indicate that the PL strain is a promising candidate for sustainable bioenergy generation. KEYWORDS bioinformatics tools, genomic analysis, geobacter sulfurreducens, MFCs, sustainable bioenergy, whole genome

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菌株PL的比较基因组分析及可持续生物发电特性检测

本研究旨在分析从池塘沉积物中分离的菌株PL的全基因组，以评估其在降解废物和有毒底物以及产生生物电方面的遗传特征。这与细菌种类硫还原Geobacter sulphreducens (G. sulphreducens) (PCA)和菌株KN400的类型菌株进行了比较。TYGS平台上的基因组分类确定了菌株PL与细菌G. sulphreducens的亲缘关系。随后，利用各种生物信息学工具对菌株PL、PCA和KN400进行了基因组研究。其中包括使用RAST服务器通过基因组注释来研究与功能类别(COG)相关的基因，随后使用Prokka程序进行基因鉴定，以发现和鉴定与电力生产相关的基因。基因组分析结果表明，该菌株具有许多产生电流所需的基因。这些基因包括与厚生物膜的形成、与微生物燃料电池(mfc)阳极的粘附、各种底物和环境污染物的氧化以及细胞外电子转移有关的基因。总体而言，获得的结果表明，PL菌株是可持续生物能源生产的有希望的候选者。关键词:生物信息学工具，基因组分析，硫还原菌，mfc，可持续生物能源，全基因组

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来源期刊

Scientific Journal of King Faisal University Multidisciplinary-Multidisciplinary

CiteScore

0.60

自引率

0.00%

发文量

期刊介绍： The scientific Journal of King Faisal University is a biannual refereed scientific journal issued under the guidance of the University Scientific Council. The journal also publishes special and supplementary issues when needed. The first volume was published on 1420H-2000G. The journal publishes two separate issues: Humanities and Management Sciences issue, classified in the Arab Impact Factor index, and Basic and Applied Sciences issue, on June and December, and indexed in (CABI) and (SCOPUS) international databases.