| 梅毒螺旋体的营养物质转运及能量合成相关代谢机制研究 |
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| 引用本文: | 江晗,谢碧波,赵思思,尹卫国,赵飞骏.梅毒螺旋体的营养物质转运及能量合成相关代谢机制研究[J].微生物学报,2022,62(1):57-64. |
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| 作者姓名: | 江晗 谢碧波 赵思思 尹卫国 赵飞骏 |
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| 作者单位: | 南华大学衡阳医学院病原生物学研究所/特殊病原体防控湖南省重点实验室, 湖南 衡阳 421001;广东省清远市人民医院分子诊断中心, 广东 清远 511518 |
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| 基金项目: | 国家自然科学基金(81971980);湖南省出生缺陷协同防治重大专项(2019SK1010);广东省自然科学基金粤东西北创新人才联合培养项目(2018A030307065) |
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| 摘 要: | 梅毒螺旋体(Treponemapallidum,Tp)是严重危害人类健康的性传播疾病梅毒的病原体,目前仍难以实现体外人工培养.Tp在感染期间是如何获得足够的能量来完成其复杂的致病过程迄今不明.本文就Tp的葡萄糖转运、糖酵解途径、丙酮酸去路以及NAD+再生的研究进展做一综述,旨在为探索Tp尚未明了的生理代谢机能、突破Tp...
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| 关 键 词: | 梅毒螺旋体 糖酵解途径 ATP合成 NAD+ 丙酮酸 |
| 收稿时间: | 2021/3/24 0:00:00 |
| 修稿时间: | 2021/6/28 0:00:00 |
Metabolic mechanisms of nutrients transport and energy synthesis of Treponema pallidum |
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| Jiang Han,XIE Bibo,ZHAO Sisi,YIN Weiguo,ZHAO Feijun.Metabolic mechanisms of nutrients transport and energy synthesis of Treponema pallidum[J].Acta Microbiologica Sinica,2022,62(1):57-64. |
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| Authors: | Jiang Han XIE Bibo ZHAO Sisi YIN Weiguo ZHAO Feijun |
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| Institution: | Institute of Pathogenic Biology and Key Laboratory of Special Pathogen Prevention and Control of Hunan Province, Hengyang Medical College, University of South China, Hengyang 421001, Hunan, China;Molecular Diagnostic Center, People''s Hospital of Qingyuan City, Qingyuan 511518, Guangdong, China |
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| Abstract: | Treponema pallidum is the pathogen of the sexually transmitted disease syphilis that seriously endangers the physical and mental health of humans, and it is still difficult to achieve artificial culture in vitro. A longstanding conundrum in Treponema pallidum biology concerns how the spirochete generates sufficient energy to fulfill its complex pathogenesis processes during human syphilitic infection. This article describes the metabolic mechanisms of Treponema pallidum, such as nutrients transport, glycolysis pathways, and metabolite detours, in order to arouse the attention of researchers and further explore the physiological and metabolic functions of Treponema pallidum that are not yet understood, and break the bottleneck of Treponema pallidum in vitro artificial culture. To clarify the possible pathogenic mechanism of Treponema pallidum, to find new clinical treatment targets to provide reference. |
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| Keywords: | Treponema pallidum glycolysis pathway ATP synthesis NAD+ pyruvate |
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