Genetic development of Stx phage

Q2 Agricultural and Biological Sciences

Biodiversitas Pub Date : 2023-09-02 DOI:10.13057/biodiv/d240815

TESSA SJAHRIANI, MALA KURNIATI, DEBI ARIVO, DWI MARLINA SYUKRI, WIWIEK TYASNINGSIH

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引用次数: 0

Abstract

Abstract. Sjahriani T, Kurniati M, Arivo D, Syukri DM, Tyasningsih W. 2023. Genetic development of Stx phage. Biodiversitas 24: 4334-4341. Stx phages have been studied and described due to their involvement in shigatoxin. The variety, evolution, dispersion, and molecular mechanisms of STEC and Stx phages have all been widely studied, but the further research is still required. The objective of this study was to investigate the unique sequences of bacteriophage DNA from the NCBI database and to identify the changes in the DNA sequence of both regular and stx-carrying bacteriophages. It was first reported in 2001, but studies have not been carried out. The stx-carrying bacteriophage DNA sequence, similarity of identity, e-value, and gaps were analyzed using PCR and DNA sequencing. The number of bacteriophage that used in this study was eight. The results revealed the similarity of bacteriophage to stx-carrying bacteriophages by 82.67% to 88.5%, and exhibited notable variations in comparison to each phage 1 to 8 (Eco157 phage WASJ/2022) (p<0.001). Moreover, results exhibited an e-value ranging from 7e-85 to 3e-44. In addition, results showed gaps between 1-2% in comparison to other stx-carrying bacteriophages in NCBI with bacteriophage alterations on the bases of Cytosine and Thymine in 184th and 263rd. Therefore, this work provided the potency of bacteriophage as an alternative pharmaceuticals in controlling foodborne diseases.

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Stx噬菌体的遗传发育

摘要刘建军，刘建军，刘建军，刘建军，等。2023。Stx噬菌体的遗传发育。生物多样性24:4334-4341。Stx噬菌体由于参与志贺毒素而被研究和描述。STEC和Stx噬菌体的种类、演化、分布和分子机制等都已被广泛研究，但仍需进一步研究。本研究的目的是研究NCBI数据库中噬菌体DNA的独特序列，并确定常规噬菌体和携带stx的噬菌体DNA序列的变化。2001年首次报道，但尚未进行研究。采用PCR和DNA测序方法分析携带stx噬菌体的DNA序列、同源相似性、e值和缺口。在这项研究中使用的噬菌体数量是8个。结果显示，噬菌体与携带st6的噬菌体的相似性为82.67% ~ 88.5%，并且与每个噬菌体1 ~ 8 (Eco157噬菌体WASJ/2022)相比存在显著差异(p<0.001)。结果显示，e值在7e-85到3e-44之间。此外，结果显示，与nbi中其他携带stx的噬菌体相比，在第184和263号噬菌体中，细胞嘧啶和胸腺嘧啶的基础发生了改变，与其他噬菌体的差异在1-2%之间。因此，本工作提供了噬菌体作为控制食源性疾病的替代药物的潜力。

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来源期刊

Biodiversitas Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

2.80

自引率

0.00%

发文量

471

审稿时长

6 weeks