Reyes M, Treptow N A, Shuman H A
J Bacteriol. 1986 Mar;165(3):918-22. doi: 10.1128/jb.165.3.918-922.1986.
In wild-type Escherichia coli the activity of the maltose transport system is dependent on a periplasmic maltose-binding protein. It has been possible, however, to isolate mutants in which transport activity is mediated by the membrane components of the system and is no longer dependent on the periplasmic binding protein. In this manuscript we show that in these binding protein-independent strains, p-nitrophenyl-alpha-maltoside is a potent inhibitor of maltose transport. In contrast, p-nitrophenyl-alpha-maltoside is only a weak inhibitor of maltose transport in wild-type bacteria. In addition, we show that p-nitrophenyl-alpha-maltoside is transported by the binding protein-independent strains but not by wild-type bacteria. We were able to detect transport of this compound because there is a cytoplasmic enzyme that cleaves p-nitrophenyl-alpha-maltoside. This enzyme has not previously been described. We show that although the synthesis of this enzyme is subject to the same regulation as the components of the maltose regulon, and is MalT dependent, it is not coded for by a known mal gene. We refer to this enzyme as alpha-maltosidase. These results strengthen our proposal that the membrane components of the maltose transport system comprise a recognition site for maltose and related substrates.
在野生型大肠杆菌中,麦芽糖转运系统的活性依赖于一种周质麦芽糖结合蛋白。然而,已经能够分离出一些突变体,其中转运活性由该系统的膜成分介导,并且不再依赖于周质结合蛋白。在本论文中,我们表明在这些不依赖结合蛋白的菌株中,对硝基苯基-α-麦芽糖苷是麦芽糖转运的有效抑制剂。相比之下,对硝基苯基-α-麦芽糖苷在野生型细菌中只是麦芽糖转运的弱抑制剂。此外,我们表明对硝基苯基-α-麦芽糖苷可被不依赖结合蛋白的菌株转运,但不能被野生型细菌转运。我们能够检测到这种化合物的转运,因为有一种细胞质酶可裂解对硝基苯基-α-麦芽糖苷。这种酶此前尚未被描述。我们表明,尽管这种酶的合成与麦芽糖调节子的成分受到相同的调控,并且依赖于MalT,但它不是由已知的mal基因编码的。我们将这种酶称为α-麦芽糖苷酶。这些结果强化了我们的提议:麦芽糖转运系统的膜成分包含一个麦芽糖及相关底物的识别位点。