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本文引用的文献

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Molecular biology of osmoregulation.渗透调节的分子生物学
Science. 1984 Jun 8;224(4653):1064-8. doi: 10.1126/science.224.4653.1064.
2
Mechanism of adverse conditions causing lack of flagella in Escherichia coli.大肠杆菌中导致鞭毛缺失的不利条件机制。
J Bacteriol. 1993 Apr;175(8):2236-40. doi: 10.1128/jb.175.8.2236-2240.1993.
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The use of salicylic acid to prevent the adherence of Escherichia coli to silastic catheters.
J Urol. 1993 Mar;149(3):667-70. doi: 10.1016/s0022-5347(17)36176-1.
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Adverse conditions which cause lack of flagella in Escherichia coli.导致大肠杆菌缺乏鞭毛的不利条件。
J Bacteriol. 1993 Apr;175(8):2229-35. doi: 10.1128/jb.175.8.2229-2235.1993.
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Salicylate potentiates amikacin therapy in rodent models of Klebsiella pneumoniae infection.
J Infect Dis. 1993 Sep;168(3):766-9. doi: 10.1093/infdis/168.3.766.
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Isolation of a nicotinamide-requiring clone of Escherichia coli O18:K1:H7 from women with acute cystitis: resemblance to strains found in neonatal meningitis.从急性膀胱炎女性患者中分离出一株需要烟酰胺的大肠杆菌O18:K1:H7克隆株:与新生儿脑膜炎中发现的菌株相似。
Clin Infect Dis. 1993 Mar;16(3):412-6. doi: 10.1093/clind/16.3.412.
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Effect of salicylate, bismuth, osmolytes, and tetracycline resistance on expression of fimbriae by Escherichia coli.水杨酸盐、铋、渗透压溶质和四环素抗性对大肠杆菌菌毛表达的影响。
Infect Immun. 1994 Jun;62(6):2178-86. doi: 10.1128/iai.62.6.2178-2186.1994.
8
micF antisense RNA has a major role in osmoregulation of OmpF in Escherichia coli.micF反义RNA在大肠杆菌中OmpF的渗透调节中起主要作用。
J Bacteriol. 1994 Aug;176(16):5005-10. doi: 10.1128/jb.176.16.5005-5010.1994.
9
Salicylate induction of antibiotic resistance in Escherichia coli: activation of the mar operon and a mar-independent pathway.水杨酸盐诱导大肠杆菌产生抗生素耐药性:mar操纵子的激活及一条不依赖mar的途径。
J Bacteriol. 1993 Dec;175(24):7856-62. doi: 10.1128/jb.175.24.7856-7862.1993.
10
Outer membrane permeation of beta-lactam antibiotics in Escherichia coli, Proteus mirabilis, and Enterobacter cloacae.β-内酰胺类抗生素在大肠杆菌、奇异变形杆菌和阴沟肠杆菌中的外膜通透性
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水杨酸盐对大肠杆菌、变形杆菌属、普罗威登斯菌属和假单胞菌属细菌鞭毛表达的影响

Effect of salicylate on expression of flagella by Escherichia coli and Proteus, Providencia, and Pseudomonas spp.

作者信息

Kunin C M, Hua T H, Bakaletz L O

机构信息

Department of Internal Medicine, Ohio State University, Columbus 43210, USA.

出版信息

Infect Immun. 1995 May;63(5):1796-9. doi: 10.1128/iai.63.5.1796-1799.1995.

DOI:10.1128/iai.63.5.1796-1799.1995
PMID:7729888
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC173226/
Abstract

Osmotic stress, salicylate, and Mar (multiple antibiotic resistance) mutation are known to block the expression of the OmpF porin. Since these conditions have also been shown to inhibit the expression of P and CFA fimbriae in Escherichia coli, we speculated that they might affect the expression of flagella as well. Hyperosmotic conditions have been shown to block the synthesis of flagellin and expression of flagella in E. coli (C. Li, C. J. Louise, W. Shi, and J. Adler, J. Bacteriol. 175:2229-2235, 1993). In the current study, sodium salicylate was found to inhibit the motility of E. coli, Proteus mirabilis, Proteus vulgaris, Providencia rettgeri, and Providencia stuartii in a reversible, concentration-dependent manner. Swarming did not occur at 20 mM sodium salicylate. Salicylate also blocked the synthesis of flagellin in E. coli. Phenotypic Mar mutants of E. coli derived from motile strains were amotile. Flagella were markedly reduced as determined by scanning electron microscopy when P. mirabilis was grown in broth containing 20 mM salicylate. Salicylate had no apparent effect, however, on expression of a 40-kDa porin protein in P. mirabilis. This finding suggests that the noted effect of salicylate on Proteus spp. may be mediated through a mechanism other than porin production or that the Proteus porin may not be analogous to OmpF in E. coli. Salicylate decreased the motility of Pseudomonas cepacia but had no effect on Pseudomonas aeruginosa. The exact mechanism by which salicylate exerts its effect is not known, but it appears to be related to osmoregulation.

摘要

已知渗透胁迫、水杨酸盐和Mar(多重抗生素抗性)突变会阻断外膜孔蛋白OmpF的表达。由于这些条件也已被证明会抑制大肠杆菌中P菌毛和CFA菌毛的表达,我们推测它们可能也会影响鞭毛的表达。高渗条件已被证明会阻断大肠杆菌中鞭毛蛋白的合成和鞭毛的表达(C. Li、C. J. Louise、W. Shi和J. Adler,《细菌学杂志》175:2229 - 2235,1993年)。在当前研究中,发现水杨酸钠以可逆的、浓度依赖性方式抑制大肠杆菌、奇异变形杆菌、普通变形杆菌、雷氏普罗威登斯菌和斯氏普罗威登斯菌的运动性。在20 mM水杨酸钠浓度下不会发生群游现象。水杨酸盐还会阻断大肠杆菌中鞭毛蛋白的合成。源自运动性菌株的大肠杆菌表型Mar突变体无运动性。当奇异变形杆菌在含有20 mM水杨酸盐的肉汤中生长时,通过扫描电子显微镜观察发现鞭毛明显减少。然而,水杨酸盐对奇异变形杆菌中一种40 kDa孔蛋白的表达没有明显影响。这一发现表明,水杨酸盐对变形杆菌属的显著作用可能是通过一种不同于孔蛋白产生的机制介导的,或者变形杆菌的孔蛋白可能与大肠杆菌中的OmpF不同。水杨酸盐降低了洋葱伯克霍尔德菌的运动性,但对铜绿假单胞菌没有影响。水杨酸盐发挥其作用的确切机制尚不清楚,但似乎与渗透调节有关。