van Rooijen R J, Dechering K J, Niek C, Wilmink J, de Vos W M
Department of Biophysical Chemistry, Netherlands Institute for Dairy Research NIZO, Ede.
Protein Eng. 1993 Feb;6(2):201-6. doi: 10.1093/protein/6.2.201.
Site-directed mutagenesis of the Lactococcus lactis lacR gene was performed to identify residues in the LacR repressor that are involved in the induction of lacABCDFEGX operon expression by tagatose-6-phosphate. A putative inducer binding domain located near the C-terminus was previously postulated based on homology studies with the Escherichia coli DeoR family of repressors, which all have a phosphorylated sugar as inducer. Residues within this domain and lysine residues that are charge conserved in the DeoR family were changed into alanine or arginine. The production of the LacR mutants K72A, K80A, K80R, D210A, K213A and K213R in the LacR-deficient L.lactis strain NZ3015 resulted in repressed phospho-beta-galactosidase (LacG) activities and decreased growth rates on lactose. Gel mobility shift assays showed that the complex between a DNA fragment carrying the lac operators and LacR mutants K72A, K80A, K213A and D210A did not dissociate in the presence of tagatose-6-phosphate, in contrast to wild type LacR. Other mutations (K62A/K63A, K72R, K73A, K73R, T212A, F214R, R216R and R216K) exhibited no gross effects on inducer response. The results strongly suggest that the lysines at positions 72, 80 and 213 and aspartic acid at position 210 are involved in the induction of lac operon expression by tagatose-6-phosphate.
对乳酸乳球菌lacR基因进行定点诱变,以鉴定LacR阻遏物中参与6-磷酸塔格糖诱导lacABCDFEGX操纵子表达的残基。基于与大肠杆菌DeoR家族阻遏物的同源性研究,先前推测在C端附近存在一个假定的诱导物结合结构域,该家族所有阻遏物均以磷酸化糖作为诱导物。将该结构域内的残基以及在DeoR家族中电荷保守的赖氨酸残基替换为丙氨酸或精氨酸。在缺乏LacR的乳酸乳球菌NZ3015菌株中产生LacR突变体K72A、K80A、K80R、D210A、K213A和K213R,导致磷酸β-半乳糖苷酶(LacG)活性受到抑制,且在乳糖上的生长速率降低。凝胶迁移率变动分析表明,与野生型LacR不同,携带lac操纵基因的DNA片段与LacR突变体K72A、K80A、K213A和D210A之间的复合物在6-磷酸塔格糖存在时不会解离。其他突变(K62A/K63A、K72R、K73A、K73R、T212A、F214R、R216R和R216K)对诱导物反应未表现出明显影响。结果强烈表明,第72、80和213位的赖氨酸以及第210位的天冬氨酸参与了6-磷酸塔格糖对lac操纵子表达的诱导作用。
