Department of Enzyme Engineering, Bach Institute of Biochemistry, Research Center of Biotechnology of the Russian Academy of Sciences, Moscow, Russia.
Kurchatov Complex of NBICS-technologies, National Research Centre "Kurchatov Institute", Moscow, Russia.
PLoS One. 2020 Jan 28;15(1):e0226838. doi: 10.1371/journal.pone.0226838. eCollection 2020.
Lipases comprise a large class of hydrolytic enzymes which catalyze the cleavage of the ester bonds in triacylglycerols and find numerous biotechnological applications. Previously, we have cloned the gene coding for a novel esterase PMGL2 from a Siberian permafrost metagenomic DNA library. We have determined the 3D structure of PMGL2 which belongs to the hormone-sensitive lipase (HSL) family and contains a new variant of the active site motif, GCSAG. Similar to many other HSLs, PMGL2 forms dimers in solution and in the crystal. Our results demonstrated that PMGL2 and structurally characterized members of the GTSAG motif subfamily possess a common dimerization interface that significantly differs from that of members of the GDSAG subfamily of known structure. Moreover, PMGL2 had a unique organization of the active site cavity with significantly different topology compared to the other lipolytic enzymes from the HSL family with known structure including the distinct orientation of the active site entrances within the dimer and about four times larger size of the active site cavity. To study the role of the cysteine residue in GCSAG motif of PMGL2, the catalytic properties and structure of its double C173T/C202S mutant were examined and found to be very similar to the wild type protein. The presence of the bound PEG molecule in the active site of the mutant form allowed for precise mapping of the amino acid residues forming the substrate cavity.
脂肪酶属于一大类水解酶,能够催化三酰基甘油酯的酯键断裂,在生物技术领域有广泛的应用。此前,我们已经从西伯利亚永冻层宏基因组 DNA 文库中克隆了编码新型酯酶 PMGL2 的基因。我们已经确定了 PMGL2 的三维结构,它属于激素敏感脂肪酶 (HSL) 家族,含有活性位点基序 GCSAG 的新变体。与许多其他 HSL 一样,PMGL2 在溶液中和晶体中形成二聚体。我们的结果表明,PMGL2 和结构特征明确的 GTSAG 基序亚家族成员具有共同的二聚化界面,与已知结构的 GDSAG 亚家族成员的界面显著不同。此外,PMGL2 的活性位点腔具有独特的组织形式,与具有已知结构的 HSL 家族的其他脂肪酶相比,拓扑结构明显不同,包括活性位点入口在二聚体中的不同取向以及活性位点腔的大小大约大四倍。为了研究 PMGL2 的 GCSAG 基序中半胱氨酸残基的作用,我们研究了其双 C173T/C202S 突变体的催化特性和结构,发现其与野生型蛋白非常相似。在突变体形式的活性位点存在结合的 PEG 分子,允许对形成底物腔的氨基酸残基进行精确映射。
