Laboratoire d'Ingénierie des Systèmes Biologiques et Procédés, LISBP, Université de Toulouse, CNRS, INRA, INSA, Toulouse, France.
Toulouse White Biotechnology, Parc technologique du canal, Bâtiment NAPA CENTER B, Toulouse, France.
PLoS One. 2018 Feb 20;13(2):e0193036. doi: 10.1371/journal.pone.0193036. eCollection 2018.
An end-point ADP/NAD+ acid/alkali assay procedure, directly applicable to library screening of any type of ATP-utilising/ADP producing enzyme activity, was implemented. Typically, ADP production is coupled to NAD+ co-enzyme formation by the conventional addition of pyruvate kinase and lactate dehydrogenase. Transformation of enzymatically generated NAD+ into a photometrically active alkali derivative product is then achieved through the successive application of acidic/alkali treatment steps. The assay was successfully miniaturized to search for malate kinase activity in a structurally-guided library of LysC aspartate kinase variants comprising 6,700 clones. The screening procedure enabled the isolation of nine positive variants showing novel kinase activity on (L)-malate, the best mutant, LysC V115A:E119S:E434V exhibited strong substrate selectivity for (L)-malate compared to (L)-aspartate with a (kcat/Km)malate/(kcat/Km)aspartate ratio of 86. Double mutants V115A:E119S, V115A:E119C and E119S:E434V were constructed to further probe the origins of stabilising substrate binding energy gains for (L)-malate due to mutation. The introduction of less sterically hindering side-chains in engineered enzymes carrying E119S and V115A mutations increases the effective volume available for substrate binding in the catalytic pocket. Improved binding of the (L)-malate substrate may be assisted by less hindered movement of the Phe184 aromatic side-chain. Additional favourable long-range electostatic effects on binding arising from the E434V surface mutation are conditionally dependent upon the presence of the V115A mutation close to Phe184 in the active-site.
实施了一种终点 ADP/NAD+ 酸碱测定程序,该程序可直接应用于任何类型的利用 ATP/产生 ADP 的酶活性文库筛选。通常,通过常规添加丙酮酸激酶和乳酸脱氢酶,将 ADP 的产生与 NAD+辅酶的形成偶联。然后,通过连续应用酸碱处理步骤,将酶促生成的 NAD+转化为比色活性碱衍生产物。该测定法成功地被微型化,以在包含 6700 个克隆的结构导向赖氨酸天冬氨酸激酶变体文库中搜索苹果酸激酶活性。筛选程序使分离到九个阳性变体成为可能,这些变体在(L)-苹果酸上表现出新型激酶活性,最佳突变体 LysC V115A:E119S:E434V 对(L)-苹果酸的底物选择性比(L)-天冬氨酸强,(kcat/Km)malate/(kcat/Km)aspartate 比值为 86。构建双突变体 V115A:E119S、V115A:E119C 和 E119S:E434V 以进一步探究突变导致(L)-苹果酸稳定结合能增益的起源。在携带 E119S 和 V115A 突变的工程酶中引入空间位阻较小的侧链,增加了催化口袋中底物结合的有效体积。带有 E119S 和 V115A 突变的(L)-苹果酸底物的结合可能得到 Phe184 芳香侧链运动阻碍较小的辅助。来自 E434V 表面突变的额外有利的长程静电结合效应取决于活性位点中 Phe184 附近 V115A 突变的存在情况。
