白色念珠菌浮游细胞对血浆药物反应的转录组分析。

Xinhua Zhang, Kok Jun Liew, Li Cao, Jie Wang, Zhidong Chang, Melvin Chun Yun Tan, Kheng Loong Chong, Chun Shiong Chong
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引用次数: 0

摘要

简介。冷等离子体常用于消除微生物污染物。在最佳条件下,它可以作为治疗各种疾病的血浆药物,包括由白色念珠菌引起的感染,白色念珠菌是一种机会性病原体,会在免疫力低下的人体内过度生长。迄今为止,关于冷等离子体处理白色念珠菌的分子研究较少。该研究旨在填补了解白僵菌对冷等离子体处理的分子反应方面的空白。该项目包括测试冷等离子体发生器,以确定其对白僵菌浮游细胞的抗菌效果。此外,还使用 RNA 测序法研究了细胞在不同处理持续时间(1、3 和 5 分钟)下的转录组学反应。结果表明,冷等离子体能有效消除白僵菌。结果表明,冷等离子体能有效消除白僵菌。冷等离子体处理导致 "核苷酸代谢"、"DNA 复制和修复"、"细胞生长"、"碳水化合物代谢 "和 "氨基酸代谢 "等重要通路的大量下调。这表明白僵菌在不利条件下停止了细胞周期以保持能量消耗。不过,白僵菌调整了其 GSH 抗氧化系统,以应对活性氧、活性氮和其他自由基引起的氧化压力。处理可能导致细胞致病性降低,因为许多毒力因子被下调。该研究证明了冷等离子体处理白僵菌的主要影响途径,为了解白僵菌对冷等离子体处理的分子反应提供了宝贵的信息。这些发现有助于了解冷等离子体的抗菌效率及其在微生物学领域的潜在应用。
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Transcriptome analysis of Candida albicans planktonic cells in response to plasma medicine.

Introduction. Cold plasma is frequently utilized for the purpose of eliminating microbial contaminants. Under optimal conditions, it can function as plasma medicine for treating various diseases, including infections caused by Candida albicans, an opportunistic pathogen that can overgrow in individuals with weakened immune system.Gap Statement. To date, there has been less molecular study on cold plasma-treated C. albicans.Research Aim. The study aims to fill the gap in understanding the molecular response of C. albicans to cold plasma treatment.Methodology. This project involved testing a cold plasma generator to determine its antimicrobial effectiveness on C. albicans' planktonic cells. Additionally, the cells' transcriptomics responses were investigated using RNA sequencing at various treatment durations (1, 3 and 5 min).Results. The results show that our cold plasma effectively eliminates C. albicans. Cold plasma treatment resulted in substantial downregulation of important pathways, such as 'nucleotide metabolism', 'DNA replication and repair', 'cell growth', 'carbohydrate metabolism' and 'amino acid metabolism'. This was an indication of cell cycle arrest of C. albicans to preserve energy consumption under unfavourable conditions. Nevertheless, C. albicans adapted its GSH antioxidant system to cope with the oxidative stress induced by reactive oxygen species, reactive nitrogen species and other free radicals. The treatment likely led to a decrease in cell pathogenicity as many virulence factors were downregulated.Conclusion. The study demonstrated the major affected pathways in cold plasma-treated C. albicans, providing valuable insights into the molecular response of C. albicans to cold plasma treatment. The findings contribute to the understanding of the antimicrobial efficiency of cold plasma and its potential applications in the field of microbiology.

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