Structural and evolutionary relationships among RuBisCOs inferred from their large and small subunits

F. Xiang, Yuanping Fang, Jun Xiang
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Abstract

Abstract Ribulose 1,5-bisphosphate carboxylase/oxygenase (RuBisCO) is the key enzyme to assimilate CO2 into the biosphere. The nonredundant structural data sets for three RuBisCO domain superfamilies, i.e. large subunit C-terminal domain (LSC), large subunit N-terminal domain (LSN) and small subunit domain (SS), were selected using QR factorization based on the structural alignment with QH as the similarity measure. The structural phylogenies were then constructed to investigate a possible functional significance of the evolutionary diversification. The LSC could have occurred in both bacteria and archaea, and has evolved towards increased complexity in both bacteria and eukaryotes with a 4-helix–2-helix–2-helix bundle being extended into a 5-helix–3-helix–3-helix one at the LSC carboxyl-terminus. The structural variations of LSN could have originated not only in bacteria with a short coil, but also in eukaryotes with a long one. Meanwhile, the SS dendrogram can be contributed to the structural variations at the βA–βB-loop region. All the structural variations observed in the coil regions have influence on catalytic performance or CO2/O2 selectivities of RuBisCOs from different species. Such findings provide insights on RuBisCO improvements.
RuBisCOs之间的结构和进化关系从它们的大小亚基推断出来
核酮糖1,5-二磷酸羧化酶/加氧酶(RuBisCO)是生物圈吸收二氧化碳的关键酶。采用基于结构比对的QR分解方法,以QH为相似性度量,选取RuBisCO结构域超家族(大亚基c端域(LSC)、大亚基n端域(LSN)和小亚基域(SS)的非冗余结构数据集。然后构建了结构系统发育,以研究进化多样化的可能功能意义。LSC可能发生在细菌和古细菌中,并且在细菌和真核生物中进化得越来越复杂,在LSC羧基端,4-螺旋- 2-螺旋- 2-螺旋束被扩展成5-螺旋- 3-螺旋束。LSN的结构变异不仅可能起源于具有短线圈的细菌,也可能起源于具有长线圈的真核生物。同时,βA - β b环区域的结构变化也导致了SS树突图的出现。在线圈区域观察到的所有结构变化都对不同物种的RuBisCOs的催化性能或CO2/O2选择性产生影响。这些发现为RuBisCO的改进提供了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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