细胞内受体型转录因子LasR包含一个高度保守的两亲区域，该区域位于假定的螺旋-转角-螺旋DNA结合基序之前。

Intracellular receptor-type transcription factor, LasR, contains a highly conserved amphipathic region which precedes the putative helix-turn-helix DNA binding motif.

作者信息

Fukushima J, Ishiwata T, Kurata M, You Z, Okuda K

机构信息

Department of Bacteriology, Yokohama City University School of Medicine, Japan.

出版信息

Nucleic Acids Res. 1994 Sep 11;22(18):3706-7. doi: 10.1093/nar/22.18.3706.

DOI:10.1093/nar/22.18.3706

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC308350/

Abstract

We have cloned and sequenced the lasR gene, which is involved in the transcriptional activation of several pathogenic factors, from Pseudomonas aeruginosa IFO3455 and PA103. These clones were predicted to be an open reading frame of 239 amino acids as reported for the PAO1 strain. There is only a single base change resulting in an amino acid exchange from M145 (PAO1) to I (IFO3455). PA103 DNA differs with PAO1 DNA in two bases resulting in only a single amino acid substitution from R179 to W. When the IFO3455 LasR was expressed in a PA103 strain which is known to be LasR defective, proteinase gene activation was detected, however, when PA103 LasR was expressed, no enhancement was measurable. From these results, it appears that the amino acid substitution of R179 to W inactivated LasR activity. This substitution is located in the highly conserved sequence found in many transcription factors, including sigma factors, and may disrupt amphipathic alpha-helix, predicted for the 176 to 189 region, which precedes the putative helix-turn-helix DNA binding motif. We presumed that these three helices may contribute to specific DNA binding.

摘要

我们已从铜绿假单胞菌IFO3455和PA103中克隆并测序了lasR基因，该基因参与多种致病因子的转录激活。这些克隆预计为一个239个氨基酸的开放阅读框，如PAO1菌株所报道的那样。与PAO1相比，只有一个碱基变化，导致一个氨基酸从M145（PAO1）变为I（IFO3455）。PA103的DNA与PAO1的DNA在两个碱基上不同，仅导致一个氨基酸从R179替换为W。当在已知LasR有缺陷的PA103菌株中表达IFO3455 LasR时，检测到蛋白酶基因激活，然而，当表达PA103 LasR时，未检测到增强作用。从这些结果来看，R179到W的氨基酸替换似乎使LasR活性失活。这种替换位于许多转录因子（包括sigma因子）中发现的高度保守序列中，可能会破坏预测位于假定的螺旋-转角-螺旋DNA结合基序之前的176至189区域的两亲性α螺旋。我们推测这三个螺旋可能有助于特异性DNA结合。

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