Evolution of root endosymbiosis with bacteria: how novel are nodules?

Markmann Katharina; Parniske Martin

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Evolution of root endosymbiosis with bacteria: how novel are nodules?

机译：细菌与细菌根共生的演变：结节有多新颖？

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Plants form diverse symbioses with nitrogen-fixing bacteria to gain access to ammonium, a product of the prokaryote-exclusive enzyme nitrogenase. Improving the symbiotic effectiveness of crop plants like maize, wheat or rice is a highly topical challenge and could help reduce the need for energy-intense nitrogen fertilizer in staple food production. Root nodule symbiosis (RNS) constitutes one of the most productive nitrogen-fixing systems, but it is restricted to a small group of related angiosperms. Here, we review the genetic regulation of RNS and its interconnections with other plant symbiosis or plant developmental programs. Since RNS uses genetic programs that are widely conserved in land plants, we evaluate the prospects for a transfer to plants that are currently non-nodulating.

机译：植物与固氮细菌形成多种共生体，以获取铵盐（铵盐），铵盐是原核生物专有酶固氮酶的产物。提高玉米，小麦或水稻等农作物的共生功效是一项迫在眉睫的挑战，可以帮助减少主食生产中对能量密集型氮肥的需求。根瘤共生（RNS）构成了生产力最高的固氮系统之一，但仅限于一小组相关的被子植物。在这里，我们回顾了RNS的遗传调控及其与其他植物共生或植物发育计划的相互联系。由于RNS使用的遗传程序在陆地植物中得到了广泛的保存，因此我们评估了向目前非结瘤植物转移的前景。

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来源
《Trends in Plant Science》 |2009年第2期|共10页
作者
Markmann Katharina; Parniske Martin;
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正文语种 eng
中图分类植物学;
关键词
endosymbionts; nodulation; cytokinins; organogenesis; vesicular arbuscular mycorrhizae; mycorrhizal fungi; bacteria; literature reviews;

机译：内共生子;结节;细胞分裂素;器官发生;水泡状丛枝菌根;菌根真菌;细菌;文献综述;

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1. Evolution of root endosymbiosis with bacteria: how novel are nodules? [J] . Markmann Katharina, Parniske Martin Trends in Plant Science . 2009,第2期

机译：细菌与细菌根共生的演变：结节有多新颖？
2. Evolution of root nodule bacteria: Reconstruction of the speciation processes resulting from genomic rearrangements in a symbiotic system [J] . Provorov N. A., Andronov E. E. Microbiology . 2016,第2期

机译：根瘤细菌的进化：共生系统中基因组重排导致物种形成过程的重建
3. Endosymbiosis formation between nitrogen-fixing bacteria Pseudomonas caryophylli and rape root cells [J] . Endocytobiosis and Cell Research . 1994,第2a3期

机译：固氮细菌假单胞菌和油菜根细胞之间的内共生形成
4. Comparative Genomic Analysis of Moderate Bacteriophages of Alfalfa Root Nodule Bacteria [C] . Muntyan V. S., Kozlova A. P., Afonin A. M., Conference on Cognitive Sciences, Genomics and Bioinformatics . 2020

机译：苜蓿根瘤菌中度噬菌体的比较基因组分析
5. Environmental factors and plant-to-bacteria signals effects on nodulation and nodule development of pea. [D] . Lira Junior, Mario de Andrade. 2001

机译：环境因素和植物对细菌的信号影响豌豆的结瘤和根瘤发育。
6. Origin of diderm (Gram-negative) bacteria: antibiotic selection pressure rather than endosymbiosis likely led to the evolution of bacterial cells with two membranes [O] . Radhey S. Gupta -1

机译：Diderm（革兰氏阴性）细菌的起源：抗生素选择压力而非内共生可能导致具有两层膜的细菌细胞的进化
7. Rapid evolution of diversity in the root nodule bacteria Biserrula plecinus L [O] . Nandasena Kemanthi Gayathri 2004

机译：根结节细菌Biserrula plecinus L多样性的快速进化

Evolution of root endosymbiosis with bacteria: how novel are nodules?

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