Gerk L P, Leven O, Müller-Hill B
Institut für Genetik, Universität zu Köln, Köln, Weyertal 121, 50931, Germany. Lily.pereg.gerk.com
J Mol Biol. 2000 Jun 9;299(3):805-12. doi: 10.1006/jmbi.2000.3706.
We increased drastically the heat stability of Lac repressor (LacR) of Escherichia coli. Wild-type tetrameric LacR denatures irreversibly at 53 degrees C. Improving hydrophobic packing at the dimerisation interface by a single substitution increases LacR heat-resistance by 40 deg. C without abolishing inducer binding at high and low temperatures. Tetrameric LacR mutants carrying substitutions of the positively charged amino acid Lys84 by each of the hydrophobic amino acids Leu, Ile and Met resist heating to temperatures up to 93 degrees C. We performed IPTG binding assays at 80 degrees C and found the mutant Lac repressors active and, thus, the core intact. Furthermore, the activity of LacR following heating is shown at room temperature by a gel retardation assay, which demonstrates normal oligomerisation state and function of the headpiece. The same mutations (K84L/I/M) in the dimer LacR331stop, carrying a stop codon in amino acid 331, increase thermostability of the dimer from 47 degrees C to 87 degrees C. LacRK84M represses beta-galactosidase activity in vivo as well as the wild-type and is sufficiently induced to allow growth on lactose. The results with both tetramer and dimer variants of LacR indicate mutual stabilisation of the tetramerisation region and the stable core.
我们大幅提高了大肠杆菌乳糖阻遏蛋白(LacR)的热稳定性。野生型四聚体LacR在53℃时会发生不可逆变性。通过单个取代改善二聚化界面处的疏水堆积,可使LacR的耐热性提高40℃,且不会在高温和低温下消除诱导剂结合。携带疏水氨基酸Leu、Ile和Met分别取代带正电荷氨基酸Lys84的四聚体LacR突变体可耐受高达93℃的加热。我们在80℃下进行了IPTG结合试验,发现突变型乳糖阻遏蛋白具有活性,因此其核心结构完整。此外,通过凝胶阻滞试验在室温下显示了加热后LacR的活性,该试验证明了其正常的寡聚化状态和头部结构的功能。在氨基酸331处带有终止密码子的二聚体LacR331stop中相同的突变(K84L/I/M),可使二聚体的热稳定性从47℃提高到87℃。LacRK84M在体内对β-半乳糖苷酶活性的抑制作用与野生型相同,并且能被充分诱导以允许在乳糖上生长。LacR的四聚体和二聚体变体的结果均表明四聚化区域和稳定核心之间存在相互稳定作用。
