Nitrogen-Fixing Gamma Proteobacteria Azotobacter vinelandii-A Blueprint for Nitrogen-Fixing Plants?

IF 4.1 2区 生物学 Q2 MICROBIOLOGY
Sayre Barron, Florence Mus, John W Peters
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Abstract

The availability of fixed nitrogen limits overall agricultural crop production worldwide. The so-called modern "green revolution" catalyzed by the widespread application of nitrogenous fertilizer has propelled global population growth. It has led to imbalances in global biogeochemical nitrogen cycling, resulting in a "nitrogen problem" that is growing at a similar trajectory to the "carbon problem". As a result of the increasing imbalances in nitrogen cycling and additional environmental problems such as soil acidification, there is renewed and increasing interest in increasing the contributions of biological nitrogen fixation to reduce the inputs of nitrogenous fertilizers in agriculture. Interestingly, biological nitrogen fixation, or life's ability to convert atmospheric dinitrogen to ammonia, is restricted to microbial life and not associated with any known eukaryotes. It is not clear why plants never evolved the ability to fix nitrogen and rather form associations with nitrogen-fixing microorganisms. Perhaps it is because of the large energy demand of the process, the oxygen sensitivity of the enzymatic apparatus, or simply failure to encounter the appropriate selective pressure. Whatever the reason, it is clear that this ability of crop plants, especially cereals, would transform modern agriculture once again. Successfully engineering plants will require creating an oxygen-free niche that can supply ample energy in a tightly regulated manner to minimize energy waste and ensure the ammonia produced is assimilated. Nitrogen-fixing aerobic bacteria can perhaps provide a blueprint for engineering nitrogen-fixing plants. This short review discusses the key features of robust nitrogen fixation in the model nitrogen-fixing aerobe, gamma proteobacteria Azotobacter vinelandii, in the context of the basic requirements for engineering nitrogen-fixing plants.

固氮伽马变形菌Azotobacter vinelandi--固氮植物的蓝图?
固定氮的供应限制了全球农作物的总产量。广泛施用氮肥催化的所谓现代 "绿色革命 "推动了全球人口增长。这导致了全球生物地球化学氮循环的失衡,造成了 "氮问题",其发展轨迹与 "碳问题 "类似。由于氮循环失衡的加剧以及土壤酸化等其他环境问题,人们对增加生物固氮的贡献以减少农业氮肥投入的兴趣再次升温。有趣的是,生物固氮或生命将大气中的二氮转化为氨的能力仅限于微生物生命,与任何已知的真核生物无关。目前还不清楚为什么植物从未进化出固氮能力,而是与固氮微生物结合。也许是因为固氮过程需要大量的能量,也许是因为酶装置对氧的敏感性,也许仅仅是因为没有遇到适当的选择压力。无论原因如何,作物植物(尤其是谷物)的这种能力显然将再次改变现代农业。要成功地对植物进行工程改造,就必须创造一个无氧的环境,以严格调节的方式提供充足的能量,最大限度地减少能量浪费,并确保产生的氨被吸收。固氮好氧菌或许可以为固氮植物工程学提供一个蓝图。这篇短文结合工程固氮植物的基本要求,讨论了固氮需氧菌模式--γ蛋白菌Azotobacter vinelandii--的稳健固氮的主要特征。
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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来源期刊
Microorganisms
Microorganisms Medicine-Microbiology (medical)
CiteScore
7.40
自引率
6.70%
发文量
2168
审稿时长
20.03 days
期刊介绍: Microorganisms (ISSN 2076-2607) is an international, peer-reviewed open access journal which provides an advanced forum for studies related to prokaryotic and eukaryotic microorganisms, viruses and prions. It publishes reviews, research papers and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files and software regarding the full details of the calculation or experimental procedure, if unable to be published in a normal way, can be deposited as supplementary electronic material.
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