Pathogen-Induced Production of the Antifungal AFP Protein from <i>Aspergillus giganteus</i> Confers Resistance to the Blast Fungus <i>Magnaporthe grisea</i> in Transgenic Rice

Moreno, Alberto; Peñas, Gisela; Rufat, Mar; Bravo, Juan Manuel; Estopà, Montserrat; Messeguer, Joaquima; Segundo, Blanca San

doi:10.1094/mpmi-18-0960

Cited by 65 publications

(37 citation statements)

References 39 publications

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“…Constitutive expression promoters such as cauliflower mosaic virus 35S promoter (CaMV35S) and rice actin gene promoter (Actin1) have been widely used to drive the expression of transferred exogenous genes in all tissues and at all developmental stages of transgenic plants. The sustained expression of foreign genes, however, can suppress plant growth and development and can cause the accumulation of toxic substances in the plants (Moreno et al, 2005;Zhu et al, 2010). In contrast, an inducible promoter enables transferred exogenous genes to be expressed in specific tissues or at specific stages of development; thus, expression of the exogenous gene would be less likely to interfere with plant growth and development but would allow host cells to respond to specific environmental signals (Castresana et al, 1990;Chang et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Cloning and functional analysis of the chitinase gene promoter in peanut

Chen¹,

Song²,

Yu³

et al. 2015

Genet. Mol. Res.

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ABSTRACT.Chitinase is an important pathogenesis-related protein in plants, and it can accumulate when induced by salicylic acid (SA) or other elicitors. Here, we found that chitinase mRNA levels were 4.5-times greater when peanut seedlings were sprayed with 1.5 mM SA, as compared to water. The upstream promoter sequence of the chitinase gene was cloned by TAIL-PCR and the potential cis-regulatory elements in this promoter were predicted by the cis-element databases PLACE and plantCARE. Elements in the promoter related to SA induction and disease resistance response included AS-1, GT1-motif, GRWAAW, TGTCA, W-box, and WB-box. The full-length promoter (P) and a series of 5'-deleted promoters (P 1 -P 5 ) were cloned and then substituted for the 35S promoter of pCAMBIA1301-xylA, which carries the xylose isomerase gene as the selectable marker and GUS as the reporter gene. Six plant expression vectors (pCAMBIA1301-xylA-P-pCAMBIA1301-xylA-P 5 ) were obtained. The six expression vectors were then transferred into onion epidermal cells and peanut plants by Agrobacterium-mediated transformation. Both the full-length and deleted promoters resulted in GUS staining of the onion epidermis cells when 12711 Characterization of peanut chitinase gene promoter ©FUNPEC-RP www.funpecrp.com.br Genetics and Molecular Research 14 (4): 12710-12722 (2015) induced by SA. In onion epidermis cells, GUS enzyme activity was greater after SA induction. In transgenic peanut plants, GUS mRNA levels were greater after SA induction. Consideration of the cis-regulatory elements predicted by PLACE and plantCARE suggested that AS-1, GRWAAW, and W-box are positive regulatory elements in P 2 and P 3 and that GT1-motif and TGTCA are negative regulatory elements between P and P 2 .

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Section: Introductionmentioning

confidence: 99%

Cloning and functional analysis of the chitinase gene promoter in peanut

Chen¹,

Song²,

Yu³

et al. 2015

Genet. Mol. Res.

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“…However repeated use of such chemicals has several drawbacks, such as their lack of specificity, increased incidence of development of resistance upon prolonged application, and the adverse impact on human health and environment. Genetic engineering of plants by transferring a gene coding for potent anti-microbial protein has now been accepted as a method of choice for directional improvement and development of disease resistant plants (Moreno et al, 2005). Taking into consideration the potential of antimicrobial proteins in plant protection strategies, the relevance of this study can be very well understood.…”

Section: Resultsmentioning

confidence: 99%

Biochemical and Antimicrobial Characterization of an Underexploited Medicinal Plant - Verbesina encelioides

Ramakrishnan¹,

Doss²,

Vijayabharathi³

2017

Int.J.Curr.Microbiol.App.Sci

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“…General propensity toward reducing fitness costs 117 as well as downgrading the co-evolutionary collapse of resistance to microbes has weighted the generation of plants expressing AMPs on-demand, by exploiting synthetic or native inducible promoters activated upon pathogen attack. 2,11,107,118,119 Employment of wounding and/or pathogeninducible promoters ensures high expression level of the peptide upon mechanical wounding and/or microbial infections. This may assist to avoid the development of pathogenic microbes capable of circumventing induced disease resistance, by e.g., mutation and/or synthesis of proteolytic agents.…”

Section: Prospective For Future Endeavorsmentioning

confidence: 99%

Antimicrobial peptides

Rahnamaeian

2011

Plant Signaling & Behavior

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Pathogen-Induced Production of the Antifungal AFP Protein from Aspergillus giganteus Confers Resistance to the Blast Fungus Magnaporthe grisea in Transgenic Rice

Cited by 65 publications

References 39 publications

Cloning and functional analysis of the chitinase gene promoter in peanut

Cloning and functional analysis of the chitinase gene promoter in peanut

Biochemical and Antimicrobial Characterization of an Underexploited Medicinal Plant - Verbesina encelioides

Antimicrobial peptides

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