Lee Yin-Fai, Tawfik Dan S, Griffiths Andrew D
The MRC Laboratory of Molecular Biology and. Centre for Protein Engineering, MRC Centre, Hills Road, Cambridge CB2 2QH, UK.
Nucleic Acids Res. 2002 Nov 15;30(22):4937-44. doi: 10.1093/nar/gkf617.
In vitro compartmentalisation (IVC), a technique for selecting genes encoding enzymes based on compartmentalising gene translation and enzymatic reactions in emulsions, was used to investigate the interaction of the DNA cytosine-5 methyltransferase M.HhaI with its target DNA (5'-GCGC-3'). Crystallography shows that the active site loop from the large domain of M.HhaI interacts with a flipped-out cytosine (the target for methylation) and two target recognition loops (loops I and II) from the small domain make almost all the other base-specific interactions. A library of M.HhaI genes was created by randomising all the loop II residues thought to make base-specific interactions and directly determine target specificity. The library was selected for 5'-GCGC-3' methylation. Interestingly, in 11 selected active clones, 10 different sequences were found and none were wild-type. At two of the positions mutated (Ser252 and Tyr254) a number of different amino acids could be tolerated. At the third position, however, all active mutants had a glycine, as in wild-type M.HhaI, suggesting that Gly257 is crucial for DNA recognition and enzyme activity. Our results suggest that recognition of base pairs 3 and 4 of the target site either relies entirely on main chain interactions or that different residues from those identified in the crystal structure contribute to DNA recognition.
体外区室化(IVC)是一种基于在乳液中对基因翻译和酶促反应进行区室化来选择编码酶的基因的技术,被用于研究DNA胞嘧啶-5甲基转移酶M.HhaI与其靶DNA(5'-GCGC-3')的相互作用。晶体学表明,M.HhaI大结构域的活性位点环与一个翻转出来的胞嘧啶(甲基化的靶标)相互作用,小结构域的两个靶标识别环(环I和环II)形成几乎所有其他的碱基特异性相互作用。通过将所有被认为形成碱基特异性相互作用的环II残基随机化,构建了一个M.HhaI基因文库,并直接确定靶标特异性。该文库被用于筛选对5'-GCGC-3'进行甲基化的基因。有趣的是,在11个筛选出的活性克隆中,发现了10种不同的序列,没有一个是野生型的。在两个发生突变的位置(Ser252和Tyr254),可以耐受多种不同的氨基酸。然而,在第三个位置,所有活性突变体都有一个甘氨酸,与野生型M.HhaI一样,这表明Gly257对DNA识别和酶活性至关重要。我们的结果表明,对靶位点第3和第4个碱基对的识别要么完全依赖于主链相互作用,要么是晶体结构中鉴定出的不同残基有助于DNA识别。