Spatial organization of putrescine synthesis in plants

IF 4.2 2区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kumud Joshi , Sheaza Ahmed , Lingxiao Ge , Arefeh Avestakh , Babatunde Oloyede , Vipaporn Phuntumart , Andrea Kalinoski , Paul F. Morris
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Abstract

Three plant pathways for the synthesis of putrescine have been described to date. These are the synthesis of putrescine from ornithine, by ornithine decarboxylase (ODC); the synthesis of putrescine from arginine by arginine decarboxylase, agmatine iminohydrolase (AIH) and N-carbamoylputrescine amidohydrolase (NLP1); and arginine decarboxylase and agmatinase. To address how these pathways are organized in plants, we have used transient expression analysis of these genes in the leaves of Nicotiana benthamiana. Brassicas do not have ODC, but the single ODC gene from rice and one of the soybean genes, were localized to the ER. Transient expression of the rice agmatinase gene showed that it was localized to the mitochondria. In A. thaliana there are five isoforms of AIH and three isoforms of NLP1. Stable GFP-tagged transformants of the longest isoforms of AIH and NLP1 showed that both proteins were localized to the ER, but in tissues with chloroplasts, the localization was concentrated to lamellae adjacent to chloroplasts. Transient expression analyses showed that four of the isoforms of AIH and all of the isoforms of NLP1 were localized to the ER. However, AIH.4 was localized to the chloroplast. Combining these results with other published data, reveal that putrescine synthesis is excluded from the cytoplasm and is spatially localized to the chloroplast, ER, and likely the mitochondria. Synthesis of putrescine in the ER may facilitate cell to cell transport via plasmodesmata, or secretion via vesicles. Differential expression of these pathways may enable putrescine-mediated activation of hormone-responsive genes.

植物中 Putrescine 合成的空间组织。
迄今为止,已经描述了三种植物合成腐胺的途径。它们分别是由鸟氨酸脱羧酶(ODC)从鸟氨酸合成腐胺;由精氨酸脱羧酶、琼脂亚胺水解酶(AIH)和 N-氨基甲酰腐胺水解酶(NLP1)从精氨酸合成腐胺;以及精氨酸脱羧酶和琼脂酶。为了解决这些途径在植物中如何组织的问题,我们利用瞬时表达分析技术对这些基因在烟草植物叶片中的表达情况进行了分析。十字花科植物没有 ODC,但水稻的单个 ODC 基因和大豆的一个基因被定位在 ER 上。水稻琼脂糖酶基因的瞬时表达表明,该基因定位于线粒体。在大连农杆菌中,AIH 有五种同工酶,NLP1 有三种同工酶。AIH 和 NLP1 最长异构体的稳定 GFP 标记转化体表明,这两种蛋白质都定位于 ER,但在有叶绿体的组织中,定位于叶绿体附近的薄片。瞬时表达分析表明,AIH 的四种同工酶和 NLP1 的所有同工酶都定位于 ER。但是,AIH.4 定位于叶绿体。将这些结果与其他已发表的数据相结合,发现腐胺的合成被排除在细胞质之外,在空间上被定位于叶绿体、ER 以及线粒体。在 ER 中合成腐胺可能有助于通过质膜进行细胞间运输,或通过囊泡进行分泌。这些途径的不同表达可能使腐胺介导的激素反应基因得以激活。
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来源期刊
Plant Science
Plant Science 生物-生化与分子生物学
CiteScore
9.10
自引率
1.90%
发文量
322
审稿时长
33 days
期刊介绍: Plant Science will publish in the minimum of time, research manuscripts as well as commissioned reviews and commentaries recommended by its referees in all areas of experimental plant biology with emphasis in the broad areas of genomics, proteomics, biochemistry (including enzymology), physiology, cell biology, development, genetics, functional plant breeding, systems biology and the interaction of plants with the environment. Manuscripts for full consideration should be written concisely and essentially as a final report. The main criterion for publication is that the manuscript must contain original and significant insights that lead to a better understanding of fundamental plant biology. Papers centering on plant cell culture should be of interest to a wide audience and methods employed result in a substantial improvement over existing established techniques and approaches. Methods papers are welcome only when the technique(s) described is novel or provides a major advancement of established protocols.
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