识别阿拉伯糖的乳糖渗透酶突变体的分离。

V C Goswitz, R J Brooker
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引用次数: 21

摘要

本研究分离了能识别单糖l -阿拉伯糖的乳糖渗透酶突变体。尽管野生型渗透酶对l -阿拉伯糖的识别能力较差,但通过在l -阿拉伯糖最小板上生长的能力,鉴定了7个独立的突变体。当进行DNA测序时,发现所有7个突变体都是单位点突变,其中丙氨酸177变为缬氨酸。然后分析了野生型和valine 177突变体对单糖和双糖的识别和转运能力。研究表明,游离l -阿拉伯糖竞争性地抑制[14C]-乳糖的转运,Val177突变体的Ki值为121 mM,野生型的Ki值更高,为320 mM。在几种单糖中,d -葡萄糖和l -阿拉伯糖对Val177突变体乳糖转运的抑制作用明显更大,而d -阿拉伯糖和d -木糖仅产生轻微的抑制作用。另一方面,对通常被野生型渗透酶识别的糖(如[14C]-半乳糖和[14C]-乳糖)的动力学研究表明,Val177突变体和野生型菌株对这两种糖具有相似的转运特性。总的来说,这些结果与Val177取代导致对特定糖(即l -阿拉伯糖)的识别增强但并不普遍影响对所有糖的识别和单向运输的概念一致。这一观点进一步得到了位点导向突变体的支持,这些突变体在177位含有异亮氨酸、亮氨酸、苯丙氨酸或脯氨酸,对l -阿拉伯糖的识别能力也增强了。
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Isolation of lactose permease mutants which recognize arabinose.

In the present study lactose permease mutants were isolated which recognize the monosaccharide, L-arabinose. Although the wild-type permease exhibits a poor recognition for L-arabinose, seven independent mutants were identified by their ability to grow on L-arabinose minimal plates. When subjected to DNA sequencing, it was found that all seven of these mutants were single-site mutations in which alanine 177 was changed to valine. The wild type and valine 177 mutant were then analyzed with regard to their abilities to recognize and transport monosaccharides and disaccharides. Free L-arabinose was shown to competitively inhibit [14C]-lactose transport yielding a Ki value of 121 mM for the Val177 mutant and a much higher value of 320 mM for the wild-type. Among several monosaccharides, D-glucose as well as L-arabinose inhibited lactose transport in the Val177 mutant to a significantly greater extent, while D-arabinose and D-xylose only caused a slight inhibition. On the other hand, kinetic studies with sugars which are normally recognized by the wild-type permease such as [14C]-galactose and [14C]-lactose revealed that the Val177 mutant and wild-type strains had similar transport characteristics for these two sugars. Overall, these results are consistent with the notion that the Val177 substitution causes an enhanced recognition for particular sugars (i.e. L-arabinose) but does not universally affect the recognition and unidirectional transport for all sugars. This idea is further supported by the observation that site-directed mutants containing isoleucine, leucine, phenylalanine, or proline at position 177 also were found to possess an enhanced recognition for L-arabinose.

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