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大肠杆菌MsbA(一种必需的ABC家族转运蛋白)在脂多糖A和磷脂生物合成中的作用。

Function of Escherichia coli MsbA, an essential ABC family transporter, in lipid A and phospholipid biosynthesis.

作者信息

Zhou Z, White K A, Polissi A, Georgopoulos C, Raetz C R

机构信息

Department of Biochemistry, Duke University Medical Center, Durham, North Carolina 27710, USA.

出版信息

J Biol Chem. 1998 May 15;273(20):12466-75. doi: 10.1074/jbc.273.20.12466.

DOI:10.1074/jbc.273.20.12466
PMID:9575204
Abstract

The Escherichia coli msbA gene, first identified as a multicopy suppressor of htrB mutations, has been proposed to transport nascent core-lipid A molecules across the inner membrane (Polissi, A., and Georgopoulos, C. (1996) Mol. Microbiol. 20, 1221-1233). msbA is an essential E. coli gene with high sequence similarity to mammalian Mdr proteins and certain types of bacterial ABC transporters. htrB is required for growth above 32 degreesC and encodes the lauroyltransferase that acts after Kdo addition during lipid A biosynthesis (Clementz, T., Bednarski, J., and Raetz, C. R. H. (1996) J. Biol. Chem. 271, 12095-12102). By using a quantitative new 32Pi labeling technique, we demonstrate that hexa-acylated species of lipid A predominate in the outer membranes of wild type E. coli labeled for several generations at 42 degreesC. In contrast, in htrB mutants shifted to 42 degreesC for 3 h, tetra-acylated lipid A species and glycerophospholipids accumulate in the inner membrane. Extra copies of the cloned msbA gene restore the ability of htrB mutants to grow at 42 degreesC, but they do not increase the extent of lipid A acylation. However, a significant fraction of the tetra-acylated lipid A species that accumulate in htrB mutants are transported to the outer membrane in the presence of extra copies of msbA. E. coli strains in which msbA synthesis is selectively shut off at 42 degreesC accumulate hexa-acylated lipid A and glycerophospholipids in their inner membranes. Our results support the view that MsbA plays a role in lipid A and possibly glycerophospholipid transport. The tetra-acylated lipid A precursors that accumulate in htrB mutants may not be transported as efficiently by MsbA as are penta- or hexa-acylated lipid A species.

摘要

大肠杆菌的msbA基因最初被鉴定为htrB突变的多拷贝抑制子,有人提出它负责将新生的核心脂质A分子转运穿过内膜(波利西,A.,和乔治opoulos,C.(1996年)《分子微生物学》20,1221 - 1233)。msbA是大肠杆菌的一个必需基因,与哺乳动物的Mdr蛋白和某些类型的细菌ABC转运蛋白具有高度的序列相似性。htrB是在32℃以上生长所必需的,它编码在脂质A生物合成过程中在添加Kdo之后起作用的月桂酰转移酶(克莱门茨,T.,贝德纳斯基,J.,和雷茨,C. R. H.(1996年)《生物化学杂志》271,12095 - 12102)。通过使用一种定量的新的32Pi标记技术,我们证明在42℃下标记几代的野生型大肠杆菌的外膜中,六酰化的脂质A种类占主导。相比之下,在转移到42℃ 3小时的htrB突变体中,四酰化的脂质A种类和甘油磷脂在内膜中积累。克隆的msbA基因的额外拷贝恢复了htrB突变体在42℃生长的能力,但它们并没有增加脂质A酰化的程度。然而,在存在msbA额外拷贝的情况下,htrB突变体中积累的相当一部分四酰化脂质A种类被转运到了外膜。在42℃下msbA合成被选择性关闭的大肠杆菌菌株在内膜中积累六酰化脂质A和甘油磷脂。我们的结果支持这样一种观点,即MsbA在脂质A以及可能的甘油磷脂转运中起作用。在htrB突变体中积累的四酰化脂质A前体可能不如五酰化或六酰化脂质A种类那样有效地被MsbA转运。

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