枯草芽孢杆菌在自然转化过程中优先吸收游离DNA

IF 0.5 Q4 MULTIDISCIPLINARY SCIENCES Trakya University Journal of Natural Sciences Pub Date : 2022-11-10 DOI:10.23902/trkjnat.1171052
Musa Tartik
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引用次数: 0

摘要

尽管遗传物质是通过有性繁殖或无性繁殖在代际间垂直转移的,但在不相关的生物体中,某些染色体和基因部分的巨大相似性为另一种转移方式提供了重要线索。遗传信息在不同生物体之间的移动性,被称为HGT,对受体宿主有直接或延迟的影响。HGT最显著的机制之一是NT,这是一个细胞从细胞外环境中获取游离DNA并通过同源重组将其纳入染色体的过程。NT可促进耐药基因的传播,在许多细菌中广泛保守。虽然已知许多生物都进行HGT,但关于生物如何决定将特定的遗传物质水平转移的信息有限。在此,我们研究了枯草芽孢杆菌具有NT能力在一定胁迫条件下不同基因源间的优先性。为了验证这一点,在不同的胁迫环境(BK, BC, BE和BCE)下,将两个序列含量不同但长度相同的DNA标本(E和C)提供给枯草芽孢杆菌。根据选择板(pE、pC和pCE)上菌落的分析结果对该假设进行了评价。所有的数据都显示了细菌在NT期间对刺激物的偏好优先权的强正相关。细菌倾向于在特定环境中摄取有用的DNA片段,例如,当转化介质中含有Eryt作为诱导剂时,大多数菌落生长在pE板上而不是pC和pCE板上。尽管这些数据与声称细菌在NT期间优先摄取游离dna的观点有很大的重叠,但需要进一步的研究来有力地支持这些数据并正确地理解这一现象。
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The preference priority of Bacillus subtilis in uptaking free DNA during the natural transformation
Although genetic material is vertically transferred between the generations via sexual or asexual reproduction, the huge similarities in some chromosome and gene parts of unrelated organisms provide important clues to another way of transfer. The mobility of genetic information among different organisms, known as HGT has immediate or delayed effects on the recipient host. One of the most notable mechanisms of HGT is NT, a process in which cells take free DNA from the extracellular environment and incorporate it into their chromosomes by homologous recombination. NT is widely conserved in many bacterial species as it can promote to spread of resistance genes. Although it is known that many organisms carry out HGT, there is limited information about how organisms decide to a particular genetic material horizontally transferred. Here, we have investigated the preference priority among different gene sources presented under certain stress conditions for B. subtilis possessing NT ability. To test this, two DNA specimens (E and C) with different sequence contents of the same length were presented to B. subtilis under different stress environments (BK, BC, BE and BCE). The hypothesis was evaluated according to the analysis results of the colonies formed on the selective plates (pE, pC and pCE). All the data have presented a strong positive correlation that the bacteria have preference priority during NT depending on a stimulator. The tendency of the bacteria to uptake useful DNA fragments in a specific environment can be suggested, for example, the majority of colonies grow on pE plates rather than the pC and pCE when the transformation media includes Eryt as an inducer. Although the data significantly overlaps with the idea claiming that the bacteria have a preference priority to uptake free DNAs during the NT, further investigations are needed to support the data strongly and understand the phenomenon properly.
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Trakya University Journal of Natural Sciences
Trakya University Journal of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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