Parissa Farnia, Mohsen Maleknia, Poopak Farnia, Jalaledin Ghanavi
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引用次数: 0
Abstract
This review examines the impact of F420 biosynthesis protein C (fbiC) mutations in Mycobacterium tuberculosis (Mtb) and their influence on the bacterium's dormancy mechanisms. The potential role of fbiC mutations and functional impairments in the persistence of Mtb is emphasized. Tuberculosis (TB) bacilli can enter a dormant state with minimal metabolic activity, allowing them to conserve resources and survive in low-nutrient, low-oxygen environments for extended periods. While the fbiC gene contributes to dormancy, Mtb can achieve this state through multiple genetic and metabolic pathways, suggesting that it may still undergo dormancy even with functional impairments in fbiC. In this review, we utilized several scientific databases, including PubMed, Web of Science, and Google Scholar, and set of key search terms including "fbiC gene," "F420 Biosynthesis," "Mycobacterium tuberculosis," "Dormancy," and "Drug Resistance" to highlight the significance of the fbiC gene in regulating dormancy and explore how Mtb compensates for fbiC dysfunction through various metabolic adaptations.
本文综述了F420生物合成蛋白C (fbiC)突变对结核分枝杆菌(Mtb)的影响及其对细菌休眠机制的影响。强调了fbiC突变和功能损伤在结核分枝杆菌持续存在中的潜在作用。结核杆菌可以进入休眠状态,代谢活动最小,使它们能够保存资源,并在低营养、低氧环境中长时间生存。虽然fbiC基因有助于休眠,但Mtb可以通过多种遗传和代谢途径实现这种状态,这表明即使fbiC功能受损,它仍可能处于休眠状态。在这篇综述中,我们利用PubMed、Web of Science和谷歌Scholar等多个科学数据库,以及包括“fbiC基因”、“F420生物合成”、“结核分枝杆菌”、“休眠”和“耐药性”等一系列关键搜索词,强调fbiC基因在调节休眠中的重要性,并探讨结核分枝杆菌如何通过各种代谢适应来补偿fbiC功能障碍。
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