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1
Intermediary metabolism of mycobacteria.分枝杆菌的中间代谢
Bacteriol Rev. 1972 Mar;36(1):65-108. doi: 10.1128/br.36.1.65-108.1972.
2
Mycobacterial lipids: selected topics.分枝杆菌脂质:选定主题。
Bacteriol Rev. 1972 Mar;36(1):33-64. doi: 10.1128/br.36.1.33-64.1972.
3
The physiology of the mycobacteria.分枝杆菌的生理学
Adv Microb Physiol. 1976;13:115-244. doi: 10.1016/s0065-2911(08)60039-9.
4
[Action of isoniazid on the growth of saprophytic mycobacteria].[异烟肼对腐生性分枝杆菌生长的作用]
Mikrobiologiia. 1979 Jan-Feb;48(1):62-4.
5
Synthesis of fatty acids by extracts of mycobacteria and the absence of inhibition by isoniazid.分枝杆菌提取物合成脂肪酸及异烟肼无抑制作用
Biochem J. 1964 Dec;93(3):635-40. doi: 10.1042/bj0930635.
6
Studies on the nitrate reductase activity of mycobacteria in the presence of fatty acids and related compounds.
Am Rev Respir Dis. 1970 Oct;102(4):507-15. doi: 10.1164/arrd.1970.102.4.507.
7
The growth of yeasts on hydrocarbons.酵母在碳氢化合物上的生长。
Prog Ind Microbiol. 1974;13:1-57.
8
Effects of isoniazid on ultrastructure of Mycobacterium aurum and Mycobacterium tuberculosis and on production of secreted proteins.异烟肼对金色分枝杆菌和结核分枝杆菌超微结构及分泌蛋白产生的影响。
Antimicrob Agents Chemother. 1996 Nov;40(11):2459-67. doi: 10.1128/AAC.40.11.2459.
9
Numerical classification of atypical Mycobacteria.
Jpn J Microbiol. 1967 Dec;11(4):233-41. doi: 10.1111/j.1348-0421.1967.tb00341.x.
10
[Features of the growth of microorganisms of the genera Proactinomyces, Mycobacterium and Micrococcus on hydrocarbons].
Prikl Biokhim Mikrobiol. 1973 Jul-Aug;9(4):539-45.

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Elucidating the Antimycobacterial Mechanism of Action of Decoquinate Derivative RMB041 Using Metabolomics.运用代谢组学阐明癸氧喹酯衍生物RMB041的抗分枝杆菌作用机制
Antibiotics (Basel). 2021 Jun 10;10(6):693. doi: 10.3390/antibiotics10060693.
2
Elucidating the Antimycobacterial Mechanism of Action of Ciprofloxacin Using Metabolomics.利用代谢组学阐明环丙沙星的抗分枝杆菌作用机制
Microorganisms. 2021 May 28;9(6):1158. doi: 10.3390/microorganisms9061158.
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Understanding HIV-Mycobacteria synergism through comparative proteomics of intra-phagosomal mycobacteria during mono- and HIV co-infection.通过对单核细胞增多症和艾滋病毒合并感染期间吞噬体内分枝杆菌进行比较蛋白质组学分析来理解艾滋病毒与分枝杆菌的协同作用。
Sci Rep. 2016 Feb 26;6:22060. doi: 10.1038/srep22060.
4
The use of functional genomics in conjunction with metabolomics for Mycobacterium tuberculosis research.功能基因组学与代谢组学在结核分枝杆菌研究中的联合应用。
Dis Markers. 2014;2014:124218. doi: 10.1155/2014/124218. Epub 2014 Mar 18.
5
Identification of small RNAs in Mycobacterium smegmatis using heterologous Hfq.利用异源 Hfq 鉴定耻垢分枝杆菌中的小 RNA。
RNA. 2013 Jan;19(1):74-84. doi: 10.1261/rna.034116.112. Epub 2012 Nov 20.
6
A novel fatty acid, 12,17-dimethyloctadecanoic acid, from the extremophile Thermogemmatispora sp. (Strain T81).一种来自嗜热芽孢杆菌属(菌株T81)极端微生物的新型脂肪酸,12,17 - 二甲基十八烷酸。
Lipids. 2012 Jun;47(6):601-11. doi: 10.1007/s11745-012-3668-z. Epub 2012 Apr 5.
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Central carbon metabolism in Mycobacterium tuberculosis: an unexpected frontier.结核分枝杆菌中心碳代谢:一个意想不到的前沿领域。
Trends Microbiol. 2011 Jul;19(7):307-14. doi: 10.1016/j.tim.2011.03.008. Epub 2011 May 10.
8
Physiology of mycobacteria.分枝杆菌生理学
Adv Microb Physiol. 2009;55:81-182, 318-9. doi: 10.1016/S0065-2911(09)05502-7.
9
Multiply methyl-branched fatty acids and diacids in the polar lipids of a microaerophilic subsurface microbial community.微需氧地下微生物群落极性脂质中的多种甲基支链脂肪酸和二酸。
Lipids. 2008 Sep;43(9):843-51. doi: 10.1007/s11745-008-3206-1. Epub 2008 Jul 9.
10
A genomic view of sugar transport in Mycobacterium smegmatis and Mycobacterium tuberculosis.耻垢分枝杆菌和结核分枝杆菌中糖转运的基因组视角。
J Bacteriol. 2007 Aug;189(16):5903-15. doi: 10.1128/JB.00257-07. Epub 2007 Jun 8.

本文引用的文献

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Respiratory Chains and Sites of Coupled Phosphorylation.
Science. 1965 Jul 16;149(3681):265-9. doi: 10.1126/science.149.3681.265.
2
Use of 3,4-Dihydroxyphenylalanine Oxidation in the Identification of Mycobacterium leprae.利用3,4-二羟基苯丙氨酸氧化反应鉴定麻风分枝杆菌
J Bacteriol. 1966 Oct;92(4):1267-8. doi: 10.1128/jb.92.4.1267-1268.1966.
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Kinetics of Utilization of Organic Compounds in the Growth of Mycobacterium tuberculosis.结核分枝杆菌生长过程中有机化合物利用的动力学
J Bacteriol. 1965 Jul;90(1):157-63. doi: 10.1128/jb.90.1.157-163.1965.
4
THE OXIDATION OF BENZOIC ACID BY MYCOBACTERIA I. : Metabolic Pathways in Mycobacterium tuberculosis, Mycobacterium butyricum, and Mycobacterium phlei.分枝杆菌对苯甲酸的氧化作用I.:结核分枝杆菌、丁酸分枝杆菌和草分枝杆菌中的代谢途径
J Bacteriol. 1952 Feb;63(2):273-8. doi: 10.1128/jb.63.2.273-278.1952.
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Phenoloxidase activity in organisms isolated from lepromatous and tuberculoid leprosy.从瘤型麻风病和结核样型麻风病中分离出的生物体中的酚氧化酶活性。
J Bacteriol. 1970 Dec;104(3):1406-8. doi: 10.1128/jb.104.3.1406-1408.1970.
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Utilization of Amino Acids During Growth of Mycobacterium tuberculosis in Rotary Cultures.分枝杆菌在旋转培养过程中的生长过程中氨基酸的利用。
Infect Immun. 1970 Jun;1(6):513-20. doi: 10.1128/iai.1.6.513-520.1970.
7
Inhibition of the Synthesis of Wax D Peptidoglycolipid of Mycobacterium tuberculosis by d-Cycloserine.D-环丝氨酸抑制结核分枝杆菌蜡质 D 肽聚糖脂质的合成。
Infect Immun. 1970 Jan;1(1):74-7. doi: 10.1128/iai.1.1.74-77.1970.
8
Studies on the metabolism of p-aminobenzoic acid by Mycobacterium smegmatis.
J Biol Chem. 1951 Dec;193(2):453-8.
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The intermediary metabolism of the mycobacteria.分枝杆菌的中间代谢
Bacteriol Rev. 1951 Sep;15(3):147-82. doi: 10.1128/br.15.3.147-182.1951.
10
Unsaturated fatty acids in microorganisms.微生物中的不饱和脂肪酸。
J Biol Chem. 1962 Jul;237:2064-8.

Intermediary metabolism of mycobacteria.

作者信息

Ramakrishnan T, Murthy P S, Gopinathan K P

出版信息

Bacteriol Rev. 1972 Mar;36(1):65-108. doi: 10.1128/br.36.1.65-108.1972.

DOI:10.1128/br.36.1.65-108.1972
PMID:4553808
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC378425/
Abstract
摘要