The PHYTOGLOBIN-NO Cycle Regulates Plant Mycorrhizal Symbiosis

Kumari Aprajita; Pathak Pradeep Kumar; Loake Gary J.; Gupta Kapuganti Jagadis

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The PHYTOGLOBIN-NO Cycle Regulates Plant Mycorrhizal Symbiosis

机译：植物植物 - 无循环调节植物菌根共生

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The production of the redox-active signaling molecule, NO, has long been associated with interactions between microbes and their host plants. Emerging evidence now suggests that specific NO signatures and cognate patterns of PHYTOGLOBIN1 (PHYTOGB1) expression, a key regulator of cellular NO homeostasis, may help determine either symbiosis or pathogenicity.

机译：氧化还原活性信号分子的产生不长期与微生物和宿主植物之间的相互作用相关。新兴的证据现在表明，植物蛋白1（Phytogb1）表达的特异性无差异和同源模式，细胞没有稳态的关键调节剂，可能有助于确定共生或致病性。

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来源
《Trends in Plant Science》 |2019年第11期|共4页
作者
Kumari Aprajita; Pathak Pradeep Kumar; Loake Gary J.; Gupta Kapuganti Jagadis;
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作者单位

Natl Inst Plant Genome Res Aruna Asaf Ali Marg New Delhi 110067 India;

Natl Inst Plant Genome Res Aruna Asaf Ali Marg New Delhi 110067 India;

Univ Edinburgh Inst Mol Plant Sci Sch Biol Sci Kings Bldg Edinburgh EH9 3BF Midlothian Scotland;

Natl Inst Plant Genome Res Aruna Asaf Ali Marg New Delhi 110067 India;

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正文语种 eng
中图分类植物学;
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1. The PHYTOGLOBIN-NO Cycle Regulates Plant Mycorrhizal Symbiosis [J] . Kumari Aprajita, Pathak Pradeep Kumar, Loake Gary J., Trends in Plant Science . 2019,第11期

机译：植物植物 - 无循环调节植物菌根共生
2. Arbuscular mycorrhizal symbiosis and salicylic acid regulate aquaporins and root hydraulic properties in maize plants subjected to drought [J] . Quiroga Gabriela, Erice Gorka, Aroca Ricardo, Agricultural Water Management . 2018,第期

机译：棉花植物中的血液菌和水杨酸调节水分素和玉米植物的根液体特性进行干旱
3. Arbuscular mycorrhizal symbiosis regulates physiology and performance of Digitaria eriantha plants subjected to abiotic stresses by modulating antioxidant and jasmonate levels [J] . Pedranzani H., Rodriguez-Rivera M., Gutierrez M., Mycorrhiza . 2016,第2期

机译：丛枝菌根共生通过调节抗氧化剂和茉莉花酸酯水平来调节非生物胁迫下洋地黄植物的生理和性能
4. Interactions between the nitrogen fixing actinomycete Frankia and mycorrhizal symbiosis on two actinorhizal Casuarinaceae plant species, Allocasuarina verticillata (L.) and Casuarina glauca (Sieb. ex Sprang) [C] . S. Diedhiou, M.O. SY, J.L. Chotte, International Plant Nutrition Colloquium . 2005

机译：固氮放线菌弗兰基亚菌和菌根共生在两个放线木犀属木本植物种上，互生的Allocasuarina verticillata（L.）和Casuarina glauca（Sieb。ex Sprang）之间的相互作用。
5. The influence of arbuscular mycorrhizal fungal symbiosis on the structure, composition and diversity of an experimental plant community [D] . Gravier, Jacquelyn Kelly 2009

机译：丛枝菌根真菌共生对实验植物群落结构，组成和多样性的影响
6. Diversity and Spatial Structure of Belowground Plant–Fungal Symbiosis in a Mixed Subtropical Forest of Ectomycorrhizal and Arbuscular Mycorrhizal Plants [O] . Hirokazu Toju, Hirotoshi Sato, Akifumi S. Tanabe -1

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7. The PHYTOGLOBIN-NO Cycle Regulates Plant Mycorrhizal Symbiosis [O] . Aprajita Kumari, Pradeep Kumar Pathak, Gary J. Loake, 2019

机译：植物植物 - 无循环调节植物菌根共生

The PHYTOGLOBIN-NO Cycle Regulates Plant Mycorrhizal Symbiosis

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