McCrea K W, Watson W J, Gilsdorf J R, Marrs C F
Department of Epidemiology, University of Michigan, Ann Arbor 48109.
Infect Immun. 1994 Nov;62(11):4922-8. doi: 10.1128/iai.62.11.4922-4928.1994.
Haemophilus influenzae produces surface structures called pili that promote adherence to human cells. Three genes encoding the major pilus structural component (pilin), chaperone, and usher proteins (designated hifA, -B, and -C, respectively) have been identified previously. In this study, transposon mutagenesis and DNA sequence analysis identified two open reading frames (ORFs) downstream of, and in the same orientation as, hifC. These genes have been designated hifD and hifE. Both genes have predicted C-terminal amino acid homology to HifA, and mutations in either gene resulted in the loss of morphologic and functional pili, indicating that hifD and hifE encode pilus structural components and are required for pilus expression. Another ORF, identified immediately downstream of hifE, has a predicted amino acid sequence that is 70% identical to an aminopeptidase of Escherichia coli called PepN, and a mutation within this ORF did not alter pilus expression. These data indicate that the pepN homolog is not required for pilus biogenesis and that one end of the pilus gene cluster has been defined.
流感嗜血杆菌产生称为菌毛的表面结构,这些菌毛可促进其与人细胞的黏附。先前已鉴定出三个编码主要菌毛结构成分(菌毛蛋白)、伴侣蛋白和外膜蛋白(分别命名为hifA、-B和-C)的基因。在本研究中,转座子诱变和DNA序列分析确定了hifC下游且与其同向的两个开放阅读框(ORF)。这些基因已被命名为hifD和hifE。这两个基因的预测C末端氨基酸与HifA具有同源性,任一基因发生突变都会导致菌毛在形态和功能上丧失,这表明hifD和hifE编码菌毛结构成分,是菌毛表达所必需的。在hifE紧邻下游位置鉴定出的另一个ORF,其预测的氨基酸序列与大肠杆菌的一种氨肽酶PepN有70%的同一性,该ORF内的突变并未改变菌毛表达。这些数据表明菌毛生物合成不需要pepN同源物,并且已确定了菌毛基因簇的一端。
