Synchrotron Radiation Research Section of Macromolecular Crystallography Laboratory, National Cancer Institute, South Cass Avenue 9700, Argonne, IL 60439, U.S.A.
Biochem J. 2018 Feb 23;475(4):787-802. doi: 10.1042/BCJ20170900.
Polyamines are linear polycationic compounds that play a crucial role in the growth and development of higher plants. One triamine (spermidine, SPD) and two tetraamine isomers (spermine, SPM, and thermospermine, TSPM) are obtained by the transfer of the aminopropyl group from decarboxylated -adenosylmethionine to putrescine and SPD. These reactions are catalyzed by the specialized aminopropyltransferases. In that respect, plants are unique eukaryotes that have independently evolved two enzymes, thermospermine synthase (TSPS), encoded by the gene , and spermine synthase, which produce TSPM and SPM, respectively. In this work, we structurally characterize the gene product, TSPS, from the model legume plant (). Six crystal structures of TSPS - one without ligands and five in complexes with either reaction substrate (SPD), reaction product (TSPM), or one of three cofactor analogs (5'-methylthioadenosine, -adenosylthiopropylamine, and adenosine) - give detailed insights into the biosynthesis of TSPM. Combined with small-angle X-ray scattering data, the crystal structures show that TSPS is a symmetric homotetramer with an interdomain eight-stranded β-barrel. Such an assembly and the presence of a hinge-like feature between N-terminal and C-terminal domains give the protein additional flexibility which potentially improves loading substrates and discarding products after the catalytic event. We also discuss the sequence and structural features around the active site of the plant aminopropyltransferases that distinguish them from each other and determine their characteristic substrate discrimination.
多胺是线性聚阳离子化合物,在高等植物的生长和发育中起着至关重要的作用。一种三胺(亚精胺,SPD)和两种四胺异构体(精胺,SPM 和热精胺,TSPM)是通过脱羧基 - 腺苷甲硫氨酸向腐胺和 SPD 转移氨基丙基而获得的。这些反应由专门的氨基丙基转移酶催化。在这方面,植物是独特的真核生物,它们独立进化出两种酶,热精胺合酶(TSPS),由基因编码,和精胺合酶,分别产生 TSPM 和 SPM。在这项工作中,我们对来自模式豆科植物的基因产物 TSPS 进行了结构表征。TSPS 的六个晶体结构-一个没有配体,五个与反应底物(SPD)、反应产物(TSPM)或三种辅因子类似物(5'-甲基硫代腺苷、- 腺苷硫丙基胺和腺苷)之一的复合物-提供了关于 TSPM 生物合成的详细见解。结合小角 X 射线散射数据,晶体结构表明 TSPS 是一个对称的四聚体,具有域间的八链β-桶。这种组装和 N 端和 C 端结构域之间的铰链样特征赋予了蛋白质额外的灵活性,这可能提高了催化事件后加载底物和丢弃产物的能力。我们还讨论了植物氨基丙基转移酶活性位点周围的序列和结构特征,这些特征将它们彼此区分开来,并决定了它们的特征底物识别。
