共查询到20条相似文献,搜索用时 0 毫秒
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X.‐P. Shi J.‐J. Ren Q. Yu S.‐M. Zhou Q.‐P. Ren L.‐J. Kong X.‐L. Wang 《Plant biology (Stuttgart, Germany)》2018,20(2):327-337
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Maria C. Rubio Laura Calvo‐Begueria Mercedes Díaz‐Mendoza Mohamed Elhiti Marten Moore Manuel A. Matamoros Euan K. James Isabel Díaz Carmen Prez‐Rontom Irene Villar Violeta C. Sein‐Echaluce Kim H. Hebelstrup Karl‐Josef Dietz Manuel Becana 《The Plant journal : for cell and molecular biology》2019,100(1):38-54
Symbiotic hemoglobins provide O2 to N2‐fixing bacteria within legume nodules, but the functions of non‐symbiotic hemoglobins or phytoglobins (Glbs) are much less defined. Immunolabeling combined with confocal microscopy of the Glbs tagged at the C‐terminus with green fluorescent protein was used to determine their subcellular localizations in Arabidopsis and Lotus japonicus. Recombinant proteins were used to examine nitric oxide (NO) scavenging in vitro and transgenic plants to show S‐nitrosylation and other in vivo interactions with NO and abscisic acid (ABA) responses. We found that Glbs occur in the nuclei, chloroplasts and amyloplasts of both model plants, and also in the cytoplasm of Arabidopsis cells. The proteins show similar NO dioxygenase activities in vitro, are nitrosylated in Cys residues in vivo, and scavenge NO in the stomatal cells. The Cys/Ser mutation does not affect NO dioxygenase activity, and S‐nitrosylation does not significantly consume NO. We demonstrate an interaction between Glbs and ABA on several grounds: Glb1 and Glb2 scavenge NO produced in stomatal guard cells following ABA supply; plants overexpressing Glb1 show higher constitutive expression of the ABA responsive genes Responsive to ABA (RAB18), Responsive to Dehydration (RD29A) and Highly ABA‐Induced 2 (HAI2), and are more tolerant to dehydration; and ABA strongly upregulates class 1 Glbs. We conclude that Glbs modulate NO and interact with ABA in crucial physiological processes such as the plant's response to dessication. 相似文献
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Juan V. Canet Albor Dobón Federico Ibáñez Lorena Perales Pablo Tornero 《Plant biotechnology journal》2010,8(2):126-141
Salicylic acid (SA) is an essential hormone for plant defence and development. SA perception is usually measured by counting the number of pathogens that grow in planta upon an exogenous application of the hormone. A biological SA perception model based on plant fresh weight reduction caused by disease resistance in Arabidopsis thaliana is proposed. This effect is more noticeable when a chemical analogue of SA is used, like Benzothiadiazole (BTH). By spraying BTH several times, a substantial difference in plant biomass is observed when compared with the mock treatment. Such difference is dose‐dependent and does not require pathogen inoculation. The model is robust and allows for the comparison of different Arabidopsis ecotypes, recombinant inbreed lines, and mutants. Our results show that two mutants, non‐expresser of pathogenesis‐related genes 1 (npr1) and auxin resistant 3 (axr3), fail to lose biomass when BTH is applied to them. Further experiments show that axr3 responds to SA and BTH in terms of defence induction. NPR1‐related genotypes also confirm the pivotal role of NPR1 in SA perception, and suggest an active program of depletion of resources in the infected tissues. 相似文献
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Qiqi Wu Minyan Lin Biswa R. Acharya Daoji Wu Wei Zhang 《The Plant journal : for cell and molecular biology》2017,89(2):250-263
Plant cell walls undergo dynamic structural and chemical changes during plant development and growth. Floral organ abscission and lateral root emergence are both accompanied by cell‐wall remodeling, which involves the INFLORESCENCE DEFICIENT IN ABSCISSION (IDA)‐derived peptide and its receptors, HAESA (HAE) and HAESA‐LIKE2 (HSL2). Plant cell walls also act as barriers against pathogenic invaders. Thus, the cell‐wall remodeling during plant development could have an influence on plant resistance to phytopathogens. Here, we identified IDA‐like 6 (IDL6), a gene that is prominently expressed in Arabidopsis leaves. IDL6 expression in Arabidopsis leaves is significantly upregulated when the plant is suffering from attacks of the bacterial Pseudomonas syringae pv. tomato (Pst) DC3000. IDL6 overexpression and knockdown lines respectively decrease and increase the Arabidopsis resistance to Pst DC3000, indicating that the gene promotes the Arabidopsis susceptibility to Pst DC3000. Moreover, IDL6 promotes the expression of a polygalacturonase (PG) gene, ADPG2, and increases PG activity in Arabidopsis leaves, which in turn reduces leaf pectin content and leaf robustness. ADPG2 overexpression restrains Arabidopsis resistance to Pst DC3000, whereas ADPG2 loss‐of‐function mutants increase the resistance to the bacterium. Pst DC3000 infection elevates the ADPG2 expression partially through HAE and HSL2. Taken together, our results suggest that IDL6‐HAE/HSL2 facilitates the ingress of Pst DC3000 by promoting pectin degradation in Arabidopsis leaves, and Pst DC3000 might enhance its infection by manipulating the IDL6‐HAE/HSL2‐ADPG2 signaling pathway. 相似文献
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Matteo Gravino Daniel Valentin Savatin Alberto Macone Giulia De Lorenzo 《The Plant journal : for cell and molecular biology》2015,84(6):1073-1086
Plant immunity against pathogens is achieved through rapid activation of defense responses that occur upon sensing of microbe‐ or damage‐associated molecular patterns, respectively referred to as MAMPs and DAMPs. Oligogalacturonides (OGs), linear fragments derived from homogalacturonan hydrolysis by pathogen‐secreted cell wall‐degrading enzymes, and flg22, a 22‐amino acid peptide derived from the bacterial flagellin, represent prototypical DAMPs and MAMPs, respectively. Both types of molecules induce protection against infections. In plants, like in animals, calcium is a second messenger that mediates responses to biotic stresses by activating calcium‐binding proteins. Here we show that simultaneous loss of calcium‐dependent protein kinases CPK5, CPK6 and CPK11 affects Arabidopsis thaliana basal as well as elicitor‐ induced resistance to the necrotroph Botrytis cinerea, by affecting pathogen‐induced ethylene production and accumulation of the ethylene biosynthetic enzymes 1‐aminocyclopropane‐1‐carboxylic acid (ACC) synthase 2 (ACS2) and 6 (ACS6). Moreover, ethylene signaling contributes to OG‐triggered immunity activation, and lack of CPK5, CPK6 and CPK11 affects the duration of OG‐ and flg22‐induced gene expression, indicating that these kinases are shared elements of both DAMP and MAMP signaling pathways. 相似文献
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Hadar Neuman Navot Galpaz Francis X. Cunningham Jr Dani Zamir Joseph Hirschberg 《The Plant journal : for cell and molecular biology》2014,78(1):80-93
Carotenoid pigments are indispensable for plant life. They are synthesized within plastids where they provide essential functions in photosynthesis. Carotenoids serve as precursors for the synthesis of the strigolactone phytohormones, which are made from β‐carotene, and of abscisic acid (ABA), which is produced from certain xanthophylls. Despite the significant progress that has been made in our understanding of the carotenoid biosynthesis pathway, the synthesis of the xanthophyll neoxanthin has remained unknown. We report here on the isolation of a tomato (Solanum lycopersicum) mutant, neoxanthin‐deficient 1 (nxd1), which lacks neoxanthin, and on the cloning of a gene that is necessary for neoxanthin synthesis in both tomato and Arabidopsis. The locus nxd1 encodes a gene of unknown function that is conserved in all higher plants. The activity of NXD1 is essential but cannot solely support neoxanthin synthesis. Lack of neoxanthin does not significantly reduce the fitness of tomato plants in cultivated field conditions and does not impair the synthesis of ABA, suggesting that in tomato violaxanthin is a sufficient precursor for ABA production in vivo. 相似文献