Genome Wide Identification, Characterization and Evolutionary Analysis of T6SS in Burkholderia cenocepacia Strains

Q4 Agricultural and Biological Sciences

International Journal Bioautomation Pub Date : 2024-03-01 DOI:10.7546/ijba.2024.28.1.000905

Sardarni K. Raza, Muhammad Ibrahim, Kainaat, Afshan Farid, Sardar S. N. Khan, A. Talat, Tayyaba Arzoo, Syeda I. Fatima, Abdul Waheed

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Abstract

Pathogens of the Burkholderia genus are causing diseases in a diverse variety of hosts. After the discovery of T6SS, it was found to play a pivotal role in virulence and other pathogenicity factors in different pathogenic Burkholderia species. For this study, three strains of Burkholderia cenocepacia were selected from different ecological niches; J2315 from humans, MC0-3 from the rhizosphere of maize, and YG-3 from the Populus tree. The sequenced genomes were retrieved from PATRIC. It was found that B. cenocepacia J2315 and MC0-3 strains had only 1 cluster of T6SS in their genomes while the YG-3 strain had 3 clusters. The circular genomic map and phylogenetic tree suggested major differences in T6SS clusters 2 and 3 of the YG-3 strain from other clusters. From the results obtained in the study and reviewing the literature, it was concluded that all 3 strains harbor T6SS-1 type cluster that is involved in causing virulence in eukaryotic organisms and several bacterial species. This factor of causing virulence in the bacteria species might be helpful for B. cenocepacia strains J2315, MC0-3 and YG-3 in survival and niche adaptation.

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伯克霍尔德氏菌（Burkholderia cenocepacia）菌株中 T6SS 的全基因组鉴定、特征描述和进化分析

伯克霍尔德氏菌属的病原体在多种宿主中致病。在发现 T6SS 后，人们发现它在不同致病伯克霍尔德氏菌中的毒力和其他致病因素中起着关键作用。在这项研究中，从不同的生态位中选取了三株伯克霍尔德氏菌：来自人类的 J2315、来自玉米根圈的 MC0-3 和来自杨树的 YG-3。测序的基因组来自 PATRIC。结果发现，J2315 和 MC0-3 株系的基因组中只有 1 个 T6SS 簇，而 YG-3 株系则有 3 个簇。环形基因组图谱和系统发生树表明，YG-3 菌株的 T6SS 第 2 和第 3 簇与其他簇存在重大差异。从研究结果和文献综述中得出的结论是，所有 3 株菌株都含有 T6SS-1 型簇，该型簇参与了真核生物和多种细菌的致病力。这种在细菌物种中引起毒性的因子可能有助于 B. cenocepacia 菌株 J2315、MC0-3 和 YG-3 的生存和生态位适应。

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