Whole genome analysis, thermal and UV-tolerance of Lactococcus phage BIM BV-114 isolated from cheese brine

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 DOI:10.1016/j.resmic.2024.104203
Aliaksandra Herasimovich, Artur Akhremchuk, Leonid Valentovich, Anastasiya Sidarenka
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Abstract

Lactococcus phages that belong to the genus Ceduovirus are among the three most frequently isolated phage groups infecting Lactococcus lactis starter strains in dairy plants. In this study, we characterized virulent Lactococcus phage BIM BV-114 isolated from industrial cheese brine in Belarus and identified as Ceduovirus. The bacteriophage demonstrated a relatively short lytic cycle (latent period of 23 ± 5 min, lysis time of 90 ± 5 min), high thermal stability (inactivation after 7 min at 95 °C in skimmed milk) and tolerance to UV radiation (inactivation time – 15 min), indicating adaptation for better persistence in dairy facilities. The genome of the phage BIM BV-114 (21 499 bp; 37 putative open reading frames) has a similar organization to that of other Ceduovirus phages. RLf1_00140 and RLf_00050 gene products, found in the early genes region, may be involved in the sensitivity of phage to the lactococcal abortive infection mechanisms AbiV and AbiQ, respectively. Furthermore, nucleotide deletion, observed in the middle region of the gene encoding putative tape measure protein (RLf1_00300), is possibly responsible for increased thermal tolerance of phage BIM BV-114. Together, these findings will contribute to a better knowledge of virulent Lactococcus phages and the development of effective methods of their control for dairy technologies.

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从奶酪盐水中分离出的乳球菌噬菌体 BIM BV-114 的全基因组分析、耐热性和耐紫外线性。
属于Ceduovirus属的乳球菌噬菌体是乳制品厂中感染乳酸乳球菌起始菌株的三种最常分离到的噬菌体之一。在这项研究中,我们对从白俄罗斯工业奶酪盐水中分离出的毒性乳球菌噬菌体 BIM BV-114 进行了鉴定,并确定其为雪杜病毒。该噬菌体表现出相对较短的裂解周期(潜伏期为 23 ± 5 分钟,裂解时间为 90 ± 5 分钟)、较高的热稳定性(在脱脂牛奶中 95 °C 下 7 分钟后失活)和对紫外线辐射的耐受性(失活时间 - 15 分钟),这表明它适应在乳品厂中更好地存活。BIM BV-114 噬菌体的基因组(21 499 bp;37 个假定开放阅读框)与其他雪腐病毒噬菌体的基因组具有相似的组织结构。在早期基因区发现的 RLf1_00140 和 RLf_00050 基因产物可能分别参与了噬菌体对乳球菌中止感染机制 AbiV 和 AbiQ 的敏感性。此外,在编码推测胶带测量蛋白(RLf1_00300)的基因中间区域观察到的核苷酸缺失,可能是噬菌体 BIM BV-114 热耐受性增强的原因。这些发现将有助于更好地了解毒性乳球菌噬菌体,并为乳制品技术开发有效的控制方法。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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