一条不依赖HilA的鼠伤寒沙门氏菌侵袭基因转录途径。
A HilA-independent pathway to Salmonella typhimurium invasion gene transcription.
作者信息
Rakeman J L, Bonifield H R, Miller S I
机构信息
Departments of Microbiology, University of Washington, Seattle, Washington 98195, USA.
出版信息
J Bacteriol. 1999 May;181(10):3096-104. doi: 10.1128/JB.181.10.3096-3104.1999.
Abstract
Salmonella typhimurium invasion of nonphagocytic cells requires the expression of a type III secretion system (TTSS) encoded within Salmonella pathogenicity island 1 (SPI1). TTSS gene transcription is activated in response to environmental signals and requires transcriptional regulators encoded within (HilA) and outside (SirA) SPI1. Two unique loci, sirB and sirC, which contribute to SPI1 gene transcription were defined. sirC is an SPI1-encoded transcription factor of the AraC family that contributes to the invasive phenotype. sirB is required for maximal expression of sirC and consists of two open reading frames located near kdsA, a gene involved in lipopolysaccharide biosynthesis. sirC expression, unlike expression of other SPI1 genes, does not require HilA. Overexpression of sirC or sirA restores expression of a subset of SPI1 genes, including invF and sspC, in the absence of HilA. These data define roles for SirC and SirA as part of a HilA-independent pathway to SPI1 gene expression. We postulate that HilA-independent activation of inv expression is important for efficient assembly and function of the SPI1 TTSS.
摘要
鼠伤寒沙门氏菌对非吞噬细胞的侵袭需要表达位于沙门氏菌致病岛1(SPI1)内的III型分泌系统(TTSS)。TTSS基因转录会响应环境信号而被激活,并且需要SPI1内部(HilA)和外部(SirA)编码的转录调节因子。定义了两个对SPI1基因转录有贡献的独特位点,即sirB和sirC。sirC是AraC家族的一个SPI1编码转录因子,对侵袭表型有贡献。sirB是sirC最大表达所必需的,由位于kdsA(一个参与脂多糖生物合成的基因)附近的两个开放阅读框组成。与其他SPI1基因的表达不同,sirC的表达不需要HilA。在没有HilA的情况下,sirC或sirA的过表达可恢复包括invF和sspC在内的一部分SPI1基因的表达。这些数据确定了SirC和SirA作为SPI1基因表达的HilA非依赖途径一部分的作用。我们推测,inv表达的HilA非依赖激活对于SPI1 TTSS的有效组装和功能很重要。
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本文引用的文献
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Two AraC/XylS family members can independently counteract the effect of repressing sequences upstream of the hilA promoter.两个AraC/XylS家族成员可独立抵消hilA启动子上游抑制序列的抑制作用。
Mol Microbiol. 1999 May;32(3):629-42. doi: 10.1046/j.1365-2958.1999.01381.x.
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Type III protein secretion systems in bacterial pathogens of animals and plants.动植物细菌性病原体中的III型蛋白质分泌系统。
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A secreted effector protein of Salmonella dublin is translocated into eukaryotic cells and mediates inflammation and fluid secretion in infected ileal mucosa.都柏林沙门氏菌的一种分泌效应蛋白被转运到真核细胞中,并介导感染的回肠黏膜中的炎症和液体分泌。
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PhoP-PhoQ activates transcription of pmrAB, encoding a two-component regulatory system involved in Salmonella typhimurium antimicrobial peptide resistance.PhoP-PhoQ激活pmrAB的转录,pmrAB编码一种参与鼠伤寒沙门氏菌抗菌肽抗性的双组分调节系统。
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Transcriptional activation of Salmonella typhimurium invasion genes by a member of the phosphorylated response-regulator superfamily.磷酸化反应调节因子超家族的一个成员对鼠伤寒沙门氏菌侵袭基因的转录激活作用。
Mol Microbiol. 1996 Nov;22(4):715-27. doi: 10.1046/j.1365-2958.1996.d01-1719.x.
8
Co-ordinate regulation of Salmonella typhimurium invasion genes by environmental and regulatory factors is mediated by control of hilA expression.鼠伤寒沙门氏菌侵袭基因受环境和调控因子的协同调控是通过对hilA表达的控制来介导的。
Mol Microbiol. 1996 Nov;22(4):703-14. doi: 10.1046/j.1365-2958.1996.d01-1718.x.
9
Transcriptional regulation of Salmonella virulence: a PhoQ periplasmic domain mutation results in increased net phosphotransfer to PhoP.沙门氏菌毒力的转录调控:PhoQ周质结构域突变导致向PhoP的净磷酸转移增加。
J Bacteriol. 1996 Nov;178(21):6369-73. doi: 10.1128/jb.178.21.6369-6373.1996.
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