Identification and genome-wide analysis provide insights into the genetic diversity and biotechnological potentials of novel cold-adapted Acinetobacter strain.

IF 2.6 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Hajra Kayani, Muhammad Asif Rasheed, Wadi B Alonazi, Farrukh Jamil, Annam Hussain, ChangHui Yan, Raza Ahmed, Muhammad Ibrahim
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引用次数: 0

Abstract

Extreme cold environments, such as polar regions or high-altitude mountains, are known for their challenging conditions including low temperatures, high salinity, and limited nutrient availability. Microbes that thrive in these environments have evolved specialized strategies to survive and function under such harsh conditions. The study aims to identify, sequence the genome, perform genome assembly, and conduct a comparative genome-wide analysis of Acinetobacter sp. strain P1, which was isolated from the Batura glacier regions of Pakistan. A basic local alignment search tool of NCBI using 16 s RNA gene sequence confirmed the strain Acinetobacter following phylogenetic analysis revealed that strain P1 clustered with Acinetobacter sp. strain AcBz01. The high-throughput Genome sequencing was done by the NovaSeq 6000 sequencing system following de novo genome assembly reported 23 contigs, a genome size of 3,732,502 bp containing approximately 3489 genes and 63 RNAs (60 tRNA, 3 rRNA). The comparative genome analysis revealed that Acinetobacter sp. strain P1 exhibited the highest homology with the Acinetobacter baumannii ATCC 17978 genome and encompassed 1668 indispensable genes, 1280 conserved genes 1821 specific genes suggesting high genomic plasticity and evolutionary diversity. The genes with functional assignments include exopolysaccharide phosphotransferase enzyme, cold-shock proteins, T6SS, membrane modifications, antibiotic resistance, and set of genes related to a wide range of metabolic characteristics such as exopolysaccharides were also present. Moreover, the structural prediction analysis of EPS proteins reveals that structural flexibility allows for conformational modifications during catalysis, which boosts or increases the catalytic effectiveness at lower temperatures. Overall, the identification of Acinetobacter, a cold-adapted bacterium, offers promising applications in bioremediation, enzyme production, food preservation, pharmaceutical development, and astrobiology. Further research and exploration of these microorganisms can unlock their full biotechnological potential and contribute to various industries and scientific endeavors.

Abstract Image

对新型冷适应不动杆菌的鉴定和全基因组分析为其遗传多样性和生物技术潜力提供了新的见解。
极端寒冷的环境,如极地或高海拔山区,以其具有挑战性的条件而闻名,包括低温、高盐度和有限的营养物质。在这些环境中茁壮成长的微生物已经进化出了在如此恶劣的条件下生存和发挥作用的专门策略。该研究旨在对分离自巴基斯坦巴图拉冰川地区的不动杆菌sp.菌株P1进行基因组鉴定、测序、基因组组装和全基因组比较分析。基于16s RNA基因序列的NCBI基本局部比对工具证实该菌株为不动杆菌,系统发育分析显示该菌株P1与AcBz01属不动杆菌。高通量基因组测序由NovaSeq 6000测序系统完成,新基因组组装报告23个contigs,基因组大小为3,732,502 bp,包含约3489个基因和63个rna(60个tRNA, 3个rRNA)。比较基因组分析显示,P1菌株与鲍曼不动杆菌ATCC 17978基因组同源性最高,包含1668个必需基因,1280个保守基因,1821个特异性基因,具有较高的基因组可塑性和进化多样性。具有功能分配的基因包括胞外多糖磷酸转移酶、冷休克蛋白、T6SS、膜修饰、抗生素耐药性,以及与胞外多糖等广泛代谢特征相关的一组基因。此外,EPS蛋白的结构预测分析表明,结构灵活性允许在催化过程中进行构象修饰,从而提高或增加在较低温度下的催化效率。总之,不动杆菌是一种适应冷环境的细菌,在生物修复、酶生产、食品保存、药物开发和天体生物学等方面具有广阔的应用前景。对这些微生物的进一步研究和探索可以释放它们的全部生物技术潜力,并为各种工业和科学事业做出贡献。
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
Extremophiles
Extremophiles 生物-生化与分子生物学
CiteScore
6.80
自引率
6.90%
发文量
28
审稿时长
2 months
期刊介绍: Extremophiles features original research articles, reviews, and method papers on the biology, molecular biology, structure, function, and applications of microbial life at high or low temperature, pressure, acidity, alkalinity, salinity, or desiccation; or in the presence of organic solvents, heavy metals, normally toxic substances, or radiation.
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