A Polyamine Oxidase from Selaginella lepidophylla (SelPAO5) can Replace AtPAO5 in Arabidopsis through Converting Thermospermine to Norspermidine instead to Spermidine

G. H. M. Sagor; Tomonobu Kusano; Thomas Berberich

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A Polyamine Oxidase from Selaginella lepidophylla (SelPAO5) can Replace AtPAO5 in Arabidopsis through Converting Thermospermine to Norspermidine instead to Spermidine

机译：卷柏卷柏中的多胺氧化酶（SelPAO5）可通过将嗜热精胺转化为去甲精胺而不是亚精胺替代拟南芥中的AtPAO5

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Of the five polyamine oxidases in Arabidopsis thaliana , AtPAO5 has a substrate preference for the tetraamine thermospermine (T-Spm) which is converted to triamine spermidine (Spd) in a back-conversion reaction in vitro. A homologue of AtPAO5 from the lycophyte Selaginella lepidophylla (SelPAO5) back-converts T-Spm to the uncommon polyamine norspermidine (NorSpd) instead of Spd. An Atpao5 loss-of-function mutant shows a strong reduced growth phenotype when growing on a T-Spm containing medium. When SelPAO5 was expressed in the Atpao5 mutant, T-Spm level decreased to almost normal values of wild type plants, and NorSpd was produced. Furthermore the reduced growth phenotype was cured by the expression of SelPAO5 . Thus, a NorSpd synthesis pathway by PAO reaction and T-Spm as substrate was demonstrated in planta and the assumption that a balanced T-Spm homeostasis is needed for normal growth was strengthened.

机译：在拟南芥中的五种多胺氧化酶中，AtPAO5具有四胺热精胺（T-Spm）的底物优先性，该四胺热精胺在体外反转化反应中转化为三胺亚精胺（Spd）。藻类植物卷柏卷柏（SelPAO5）的AtPAO5同源物将T-Spm反向转化为不常见的多胺降鸟精（NorSpd）而不是Spd。当在含有T-Spm的培养基上生长时，Aptao5功能丧失的突变体表现出强烈的生长表型降低。当在Atpao5突变体中表达SelPAO5时，T-Spm水平降至野生型植物的几乎正常值，并产生了NorSpd。此外，SelPAO5的表达可以治愈减少的生长表型。因此，在植物中证明了通过PAO反应和以T-Spm为底物的NorSpd合成途径，并加强了正常生长需要平衡的T-Spm稳态的假设。

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《Plants》 |2019年第4期|共11页
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G. H. M. Sagor; Tomonobu Kusano; Thomas Berberich;
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中图分类农业科学;
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polyamine oxidasenorspermidinethermospermineSelaginella lepidophyllaArabidopsis thaliana mutant;

机译：多胺氧化酶norspermidinethermospermine Lepidophylla拟南芥拟南芥突变体;

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外文文献

1. The polyamine oxidase from lycophyte Selaginella lepidophylla (SelPAO5), unlike that of angiosperms, back-converts thermospermine to norspermidine [J] . Sagor G. H. M., Inoue Masataka, Kim Dong Wook, FEBS letters. . 2015,第20aPta2期

机译：与被子植物不同的是，苔藓卷柏卷柏（SelPAO5）中的多胺氧化酶将热精胺反转化为去甲精胺
2. The polyamine oxidase from lycophyteSelaginella lepidophylla (SelPAO5), unlike that of angiosperms, back‐converts thermospermine to norspermidine [J] . FEBS Letters . 2015,第1期

机译：与被子植物不同的是，苔藓植物长叶芥子Selginella lepidophylla（SelPAO5）的多胺氧化酶将热精胺反转化为去甲精胺
3. Oryza sativa polyamine oxidase 1 back-converts tetraamines, spermine and thermospermine, to spermidine. [J] . Liu TaiBo, Kim DongWook, Niitsu M., Plant Cell Reports . 2014,第1期

机译：水稻多胺氧化酶1将四胺，精胺和热精胺反转化为亚精胺。
4. Contribution of 14-3-3lambda in the Resilience to Drought Stress by Affecting the Biosynthesis of Anthocyanins in Arabidopsis Thaliana and the Resurrection Plant Selaginella Lepidophylla . [D] . Nabbie, Fizal N. 2017

机译：14-3-3λ通过影响拟南芥和复活植物卷柏卷柏花色苷的生物合成对抗旱性的贡献。
5. A Polyamine Oxidase from Selaginella lepidophylla (SelPAO5) can Replace AtPAO5 in Arabidopsis through Converting Thermospermine to Norspermidine instead to Spermidine [O] . G. H. M. Sagor, Tomonobu Kusano, Thomas Berberich 2019

机译：卷柏卷柏中的多胺氧化酶（SelPAO5）可通过将嗜热精胺转化为去甲精胺而不是亚精胺来替代拟南芥中的AtPAO5
6. The polyamine oxidase from lycophyte Selaginella lepidophylla (SelPAO5), unlike that of angiosperms, back-converts thermospermine to norspermidine [O] . Sagor G.H.M., Inoue Masataka, Kim Dong Wook, 2015

机译：不同于被子植物，裂殖卷柏卷柏（SelPAO5）中的多胺氧化酶将热精胺反转化为去甲精胺

A Polyamine Oxidase from Selaginella lepidophylla (SelPAO5) can Replace AtPAO5 in Arabidopsis through Converting Thermospermine to Norspermidine instead to Spermidine

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