Your search keyword '"defense gene expression"' showing total 5 results

1. Ethylene signals modulate the survival of Arabidopsis leaf explants.

Author

Shin SY, Lee CM, Kim HS, Kim C, Jeon JH, and Lee HJ

Subjects

Anthocyanins metabolism, Ethylenes metabolism, Plant Leaves metabolism, Gene Expression Regulation, Plant, Arabidopsis genetics, Arabidopsis metabolism

Abstract

Background: Leaf explants are major materials in plant tissue cultures. Incubation of detached leaves on phytohormone-containing media, which is an important process for producing calli and regenerating plants, change their cell fate. Although hormone signaling pathways related to cell fate transition have been widely studied, other molecular and physiological events occurring in leaf explants during this process remain largely unexplored., Results: Here, we identified that ethylene signals modulate expression of pathogen resistance genes and anthocyanin accumulation in leaf explants, affecting their survival during culture. Anthocyanins accumulated in leaf explants, but were not observed near the wound site. Ethylene signaling mutant analysis revealed that ethylene signals are active and block anthocyanin accumulation in the wound site. Moreover, expression of defense-related genes increased, particularly near the wound site, implying that ethylene induces defense responses possibly by blocking pathogenesis via wounding. We also found that anthocyanin accumulation in non-wounded regions is required for drought resistance in leaf explants., Conclusions: Our study revealed the key roles of ethylene in the regulation of defense gene expression and anthocyanin biosynthesis in leaf explants. Our results suggest a survival strategy of detached leaves, which can be applied to improve the longevity of explants during tissue culture., (© 2023. The Author(s).)

Published

2023

2. Active DNA demethylation regulates MAMP-triggered immune priming in Arabidopsis.

Author

Huang M, Zhang Y, Wang Y, Xie J, Cheng J, Fu Y, Jiang D, Yu X, and Li B

Subjects

DNA Demethylation, Gene Expression Regulation, Plant, Plant Diseases, Protein-Tyrosine Kinases, Proto-Oncogene Proteins, Arabidopsis, Arabidopsis Proteins, DNA Glycosylases

Abstract

Plants recognize microbe-associated molecular patterns (MAMPs) to activate immune responses and defense priming to defend against pathogen infections. Transcriptional regulation of gene expression is crucial for plant immunity and is mediated by multiple factors, including DNA methylation. However, it remains unknown whether and how DNA demethylation contributes to immune responses in MAMP-triggered immunity. Here, we report that active DNA demethylation is required for MAMP-triggered immunity to bacterial pathogens. The rdd-2 triple mutant carrying mutations in ROS1, DML2, and DML3 that encode DNA glycosylases, which are key DNA demethylation enzymes, exhibits compromised immune responses triggered by the MAMPs flg22 and elf18. Genome-wide methylome analysis reveals that flg22 induces rapid and specific DNA demethylation in an RDD-dependent manner. The expression levels of salicylic acid signaling-related and phytoalexin biosynthesis-related genes are tightly associated with the flg22-induced promoter demethylation. The compromised accumulation of priming compounds and antimicrobial metabolites ultimately leads to a defense priming defect in the rdd-2 mutant. Our results reveal the critical role of active DNA demethylation in the MAMP-triggered immune response and provide unique insight into the molecular mechanism of flg22-modulated DNA demethylation., Competing Interests: Conflict of interest The authors have declared no competing interests., (Copyright © 2022 Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, and Genetics Society of China. Published by Elsevier Ltd. All rights reserved.)

Published

2022

3. Ethylene signals modulate the survival of Arabidopsis leaf explants

Author

Seung Yong Shin, Chae-Min Lee, Hyun-Soon Kim, Changsoo Kim, Jae-Heung Jeon, and Hyo-Jun Lee

Subjects

Ethylene, Survival of explants, Defense gene expression, Anthocyanin, Arabidopsis, Botany, QK1-989

Abstract

Abstract Background Leaf explants are major materials in plant tissue cultures. Incubation of detached leaves on phytohormone-containing media, which is an important process for producing calli and regenerating plants, change their cell fate. Although hormone signaling pathways related to cell fate transition have been widely studied, other molecular and physiological events occurring in leaf explants during this process remain largely unexplored. Results Here, we identified that ethylene signals modulate expression of pathogen resistance genes and anthocyanin accumulation in leaf explants, affecting their survival during culture. Anthocyanins accumulated in leaf explants, but were not observed near the wound site. Ethylene signaling mutant analysis revealed that ethylene signals are active and block anthocyanin accumulation in the wound site. Moreover, expression of defense-related genes increased, particularly near the wound site, implying that ethylene induces defense responses possibly by blocking pathogenesis via wounding. We also found that anthocyanin accumulation in non-wounded regions is required for drought resistance in leaf explants. Conclusions Our study revealed the key roles of ethylene in the regulation of defense gene expression and anthocyanin biosynthesis in leaf explants. Our results suggest a survival strategy of detached leaves, which can be applied to improve the longevity of explants during tissue culture.

Published

2023

4. Biotin deficiency causes spontaneous cell death and activation of defense signaling.

Author

Li, Jing, Brader, Günter, Helenius, Elina, Kariola, Tarja, and Palva, E. Tapio

Subjects

*BIOTIN, *CELL death, *CELLULAR signal transduction, *PLANT metabolites, *GENE expression in plants, *BIOSYNTHESIS, *ARABIDOPSIS

Abstract

Summary In addition to its essential metabolic functions, biotin has been suggested to play a critical role in regulating gene expression. The first committed enzyme in biotin biosynthesis in Arabidopsis, 7-keto-8-aminopelargonic acid synthase, is encoded by At5g04620 ( BIO4). We isolated a T-DNA insertion mutant of BIO4 ( bio4-1) with a spontaneous cell death phenotype, which was rescued both by exogenous biotin and genetic complementation. The bio4-1 plants exhibited massive accumulation of hydrogen peroxide and constitutive up-regulation of a number of genes that are diagnostic for defense and reactive oxygen species signaling. The cell-death phenotype was independent of salicylic acid and jasmonate signaling. Interestingly, the observed increase in defense gene expression was not accompanied by enhanced resistance to bacterial pathogens, which may be explained by uncoupling of defense gene transcription from accumulation of the corresponding protein. Characterization of biotinylated protein profiles showed a substantial reduction of both chloroplastic biotinylated proteins and a nuclear biotinylated polypeptide in the mutant. Our results suggest that biotin deficiency results in light-dependent spontaneous cell death and modulates defense gene expression. The isolation and molecular characterization of the bio4-1 mutant provides a valuable tool for elucidating new functions of biotin. [ABSTRACT FROM AUTHOR]

Published

2012

5. Molecular analysis of poplar defense against herbivory: comparison of wound- and insect elicitor-induced gene expression.

Author

Major, Ian T. and Constabel, C. Peter

Subjects

*POPLARS, *PLANT defenses, *PLANT genetics, *GENE expression, *SPODOPTERA, *ARABIDOPSIS, *HERBIVORES, *PLANT physiology, *PLANT metabolism, *MOLECULAR biology

Abstract

• In order to characterize defense responses of hybrid poplar ( Populus trichocarpa×  P. deltoides), we profiled leaf transcript patterns elicited by wounding and by regurgitant from forest tent caterpillar (FTC; Malacosoma disstria), a Lepidopteran defoliator of poplars. • Macroarrays were used to compare transcript profiles. Both FTC-regurgitant (FTC-R) and mechanical wounding with pliers elicited expression of a variety of genes, and for these genes our analysis indicated that these treatments induced qualitatively similar responses. • Similarily, a comparison of responses of directly treated and systemically induced leaves indicated extensive overlap in the sets of induced genes. FTC-R was found to contain the insect-derived elicitor volicitin. • The simulated herbivory treatments resulted in the induction of genes involved in poplar defense and secondary metabolism. We also identified wound-responsive genes with roles in primary metabolism, including a putative invertase, lipase, and acyl-activating enzyme; some of these genes may have roles in defense signaling. In addition, we found three unknown genes containing a ZIM motif which may represent novel transcription factors. [ABSTRACT FROM AUTHOR]

Published

2006