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Plants increase CO uptake by assimilating nitrogen via the photorespiratory pathway.植物通过光呼吸途径同化氮来增加 CO 的吸收。
Nat Plants. 2018 Jan;4(1):46-54. doi: 10.1038/s41477-017-0065-x. Epub 2017 Dec 11.
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Photorespiration Is Crucial for Dynamic Response of Photosynthetic Metabolism and Stomatal Movement to Altered CO Availability.光呼吸对于光合作用代谢和气孔运动对 CO 可用性变化的动态响应至关重要。
Mol Plant. 2017 Jan 9;10(1):47-61. doi: 10.1016/j.molp.2016.09.011. Epub 2016 Oct 1.
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Overexpression of Arabidopsis NLP7 improves plant growth under both nitrogen-limiting and -sufficient conditions by enhancing nitrogen and carbon assimilation.拟南芥NLP7的过表达通过增强氮和碳同化作用,在氮限制和氮充足条件下均能促进植物生长。
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Impact of concurrent overexpression of cytosolic glutamine synthetase (GS1) and sucrose phosphate synthase (SPS) on growth and development in transgenic tobacco.胞质谷氨酰胺合成酶(GS1)和蔗糖磷酸合酶(SPS)同时过表达对转基因烟草生长发育的影响
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Photorespiration in C3-C 4 intermediate species of Alternanthera and Parthenium: Reduced ammonia production and increased capacity of CO2 refixation in the light.中间型 C3-C4 植物互生叶百部和银胶菊的光呼吸:氨生成减少,光照下 CO2 再固定能力增强。
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异源表达关键的 C 和 N 代谢酶可提高光呼吸 CO 和 NH 的再同化以及生长。

Heterologous Expression of Key C and N Metabolic Enzymes Improves Re-assimilation of Photorespired CO and NH, and Growth.

机构信息

Academy of Scientific and Innovative Research, Council of Scientific and Industrial Research-Institute of Himalayan Bioresource Technology, P.O. Box 6, Palampur (H.P.) 176061, India.

Biotechnology Division, Council of Scientific and Industrial Research-Institute of Himalayan Bioresource Technology, P.O. Box 6, Palampur (H.P.) 176061, India.

出版信息

Plant Physiol. 2018 Aug;177(4):1396-1409. doi: 10.1104/pp.18.00379. Epub 2018 Jun 11.

DOI:10.1104/pp.18.00379
PMID:29891741
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6084664/
Abstract

We investigated the effect of the heterologous expression of (), (), and () on carbon (C) and nitrogen (N) metabolism in Arabidopsis (). These transgenes were expressed either separately or in different combinations. The highest gains in shoot dry weight were observed in transgenic lines coexpressing all three genes. Tracer experiments using NaHCO suggested that the coexpression of , , and resulted in a higher flux of assimilated CO toward sugars and amino acids. Upon feeding the leaf discs with glycine-1-C, transgenic lines evolved significantly lower CO levels than the wild type, suggesting that a higher reassimilation of CO evolved during photorespiration. Leaves of transgenic plants accumulated significantly lower ammonium without any significant difference in the levels of photorespiratory ammonium relative to the wild type, suggesting a higher reassimilation of photorespired NH Transgenic lines also showed improved photosynthetic rates, higher shoot biomass accumulation, and improved seed yield in comparison with wild-type plants under both optimum and limiting N conditions. This work demonstrates that the heterologous coexpression of , , and reduced the photorespiratory loss of C and N with concomitant enhancements in shoot biomass and seed yield.

摘要

我们研究了异源表达 ()、() 和 () 对拟南芥 () 中碳 (C) 和氮 (N) 代谢的影响。这些转基因分别或组合表达。在共表达这三个基因的转基因系中,地上部干重的增加幅度最大。使用 NaHCO 的示踪实验表明,共表达 、 和 导致更多的同化 CO 流向糖和氨基酸。在用 1-C-甘氨酸喂养叶片圆片后,与野生型相比,转基因系释放的 CO 水平显著降低,表明在光呼吸过程中 CO 的再同化程度更高。转基因植物的叶片中铵含量显著降低,而相对于野生型,光呼吸产生的铵含量没有显著差异,表明光呼吸产生的 NH 再同化程度更高。与野生型植物相比,转基因系在最佳和限制氮条件下还表现出更高的光合速率、地上部生物量积累和种子产量。这项工作表明,异源共表达 、 和 减少了光呼吸过程中 C 和 N 的损失,同时增加了地上部生物量和种子产量。