Huang Jing, Yu Zheng, Chistoserdova Ludmila
Department of Chemical Engineering, University of Washington, Seattle, WA, United States.
Front Microbiol. 2018 Jun 26;9:1366. doi: 10.3389/fmicb.2018.01366. eCollection 2018.
Lanthanide-dependent alcohol dehydrogenases have recently emerged as environmentally important enzymes, most prominently represented in methylotrophic bacteria. The diversity of these enzymes, their environmental distribution, and their biochemistry, as well as their evolutionary relationships with their calcium-dependent counterparts remain virtually untapped. Here, we make important advances toward understanding lanthanide-dependent methylotrophy by assessing the distribution of XoxF4 and XoxF5 clades of lanthanide methanol dehydrogenases among, respectively, Methylophilaceae and non-Methylophilaceae methylotrophs, and we carry out comparative biochemical characterization of XoxF4 and XoxF5 enzymes, demonstrating differences in their properties, including catalytic efficiencies. We conclude that one subtype of the XoxF4 enzyme, XoxF4-1 is the dominant type in nature while other XoxF4 subtypes appear to be auxiliary, representatives of this clade only found in the Methylophilaceae (Betaproteobacteria). In contrast, we demonstrate that XoxF5 enzymes are widespread among Alpha-, Beta-, and Gammaproteobacteria. We purified and biochemically characterized two XoxF4 enzymes (XoxF4-1 and XoxF4-2), both from , and one XoxF5 enzyme, from sp., after expressing their His-tagged versions in respective natural hosts. All three enzymes showed broad specificities toward alcohols and aldehydes and strict dependence on lighter lanthanides. However, they revealed differences in their properties in terms of optimal pH for activity, ammonia dependence, the range of lanthanides that could serve as cofactors, and in kinetic properties. Overall, our data advance the understanding of the biochemistry and environmental distribution of these recently discovered enzymes that appear to be key enzymes in lanthanide-dependent methylotrophy.
镧系元素依赖性乙醇脱氢酶最近已成为对环境具有重要意义的酶,在甲基营养型细菌中表现最为突出。这些酶的多样性、它们在环境中的分布、它们的生物化学性质,以及它们与钙依赖性对应物的进化关系实际上仍未得到充分研究。在这里,我们通过评估镧系元素甲醇脱氢酶的XoxF4和XoxF5进化枝分别在嗜甲基菌科和非嗜甲基菌科甲基营养菌中的分布,在理解镧系元素依赖性甲基营养方面取得了重要进展,并且我们对XoxF4和XoxF5酶进行了比较生化表征,证明了它们在性质上的差异,包括催化效率。我们得出结论,XoxF4酶的一种亚型XoxF4-1是自然界中的主要类型,而其他XoxF4亚型似乎是辅助性的,该进化枝的代表仅在嗜甲基菌科(β-变形菌纲)中发现。相比之下,我们证明XoxF5酶广泛存在于α-、β-和γ-变形菌纲中。在各自的天然宿主中表达它们的His标签版本后,我们纯化并对两种XoxF4酶(XoxF4-1和XoxF4-2)以及一种XoxF5酶进行了生化表征,这两种XoxF4酶均来自 ,XoxF5酶来自 菌属。所有这三种酶对醇类和醛类都表现出广泛的特异性,并且严格依赖于较轻的镧系元素。然而,它们在活性的最佳pH值、对氨的依赖性、可作为辅因子的镧系元素范围以及动力学性质方面表现出性质上的差异。总体而言,我们的数据推进了对这些最近发现的酶的生物化学和环境分布的理解,这些酶似乎是镧系元素依赖性甲基营养中的关键酶。
