Disease Resistance Mechanisms in Plants

Andersen, Ethan J.; Ali, Shaukat; Byamukama, Emmanuel; Yen, Yang; Nepal, Madhav P.

doi:10.3390/genes9070339

Cited by 324 publications

(281 citation statements)

References 349 publications

(387 reference statements)

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“…Once, the FOP has established itself in bean tissues, the fragments released in response to disruption of the first line of defense i.e., cell-wall (galacturonic acid-containing fragments) act as signals and mediate defense response by strengthening defensive barriers i.e., CEBiP and CERK. In this regard, the high activation of fungal elicitor immediate early-responsive genes in FO-24 as compared to CK-24 confirms that such signals are received by common bean root tissues [18,22,36]. Involvement of GPI-APs with extracellular ligands such as pathogen molecules as well as other ligands i.e., phytohormones, signaling polypeptides, leads to the phosphorylation of the intracellular kinase domain, which consequently activate cytoplasmic signaling components and switch on the response mechanisms.…”

Section: Modulation Of Defense Related Proteins In Common Beanmentioning

confidence: 64%

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Chen¹,

Wu²,

He³

et al. 2019

IJMS

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Molecular changes elicited by common bean (Phaseolus vulgaris L.) in response to Fusarium oxysproum f. sp. Phaseoli (FOP) remain elusive. We studied the changes in root metabolism during common bean-FOP interactions using a combined de novo transcriptome and metabolome approach. Our results demonstrated alterations of transcript levels and metabolite concentrations in common bean roots 24 h post infection as compared to control. The transcriptome and metabolome responses in common bean roots revealed significant changes in structural defense i.e., cell-wall loosening and weakening characterized by hyper accumulation of cell-wall loosening and degradation related transcripts. The levels of pathogenesis related genes were significantly higher upon FOP inoculation. Interestingly, we found the involvement of glycosylphosphatidylinositol-anchored proteins (GPI-APs) in signal transduction in response to FOP infection. Our results confirmed that hormones have strong role in signaling pathways i.e., salicylic acid, jasmonate, and ethylene pathways. FOP induced energy metabolism and nitrogen mobilization in infected common bean roots as compared to control. Importantly, the flavonoid biosynthesis pathway was the most significantly enriched pathway in response to FOP infection as revealed by the combined transcriptome and metabolome analysis. Overall, the observed modulations in the transcriptome and metabolome flux as outcome of several orchestrated molecular events are determinant of host's role in common bean-FOP interactions.

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Section: Modulation Of Defense Related Proteins In Common Beanmentioning

confidence: 64%

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Chen¹,

Wu²,

He³

et al. 2019

IJMS

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“…Cobrançosa, may be due to differential metabolite alterations occurring on both cultivars upon Pss infection. Indeed, plants can defend themselves against pathogens by a variety of mechanisms that enable the detection of pathogen invasion and activation of a defense response 22 . This defensive response is highly complex and involves a cellular reprogramming that is characterized by an altered plant metabolism with the biosynthesis of defensive compounds 23 .…”

Section: Discussionmentioning

confidence: 99%

Impact of plant genotype and plant habitat in shaping bacterial pathobiome: a comparative study in olive tree

Mina

Pereira

Lino-Neto

et al. 2020

Sci Rep

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Plant-inhabiting microorganisms interact directly with each other affecting disease progression.However, the role of host plant and plant habitat in shaping pathobiome composition and their implication for host susceptibility/resistance to a particular disease are currently unknown. For the elucidation of these questions, both epiphytic and endophytic bacterial communities, present in asymptomatic and symptomatic twigs from olive cultivars displaying different susceptibilities to olive knot (OK) disease, were investigated using culturing methods. OK disease was the main driver of the bacterial community, causing changes on their diversity, abundance and composition. OK disease effect was most notorious on OK-susceptible cultivar and when considering the endophytic communities. plant habitat (epiphytes vs. endophytes) also contributed to the bacterial community assembling, in particular on symptomatic twigs (knots) of OK-susceptible cultivar. In contrast, host cultivar had little effect on the bacterial community composition, but OK-symptomatic twigs (knots) revealed to be more affected by this driver. Overall, the pathobiome seems to result from an intricate interaction between the pathogen, the resident bacteria, and the plant host. Specific bacterial genera were associated to the presence or absence of OK disease in each cultivar. Their ability to trigger and/or suppress disease should be studied in the future.

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“…[21], chilli/chitosan/Colletotrichum capsica [22], millet/chitosan derivatives/Pyricola grisea [23], tomato/crab shells/Fusarium oxysporum [24] and cocoa/oyster shells/P. megakarya [20] through the possible triggering of biochemical pathways associated with growth promotion and disease resistance [8] [25] [26]. Shells, chitin sources and derivatives (chitin and chitosan-based polymers) contents chitin, calcium and magnesium carbonate, protein … [10].…”

Section: Discussionmentioning

confidence: 99%

Potential Biostimulant Effect of Clam Shells on Growth Promotion of Plantain PIF Seedlings (<i>var</i>. Big Ebanga & Batard) and Relation to Black Sigatoka Disease Susceptibility

Ewané¹,

Ndongo²,

Ngoula³

et al. 2019

AJPS

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Plantain contributes significantly to income generation and food security for millions of people in the world. However, it faces problems of seedlings quantity, quality and availability. The innovation of the "plants issus de fragments de tiges" (PIF) technique could be a solution to these problems for small holders' farmers. The aim of this research is to evaluate the effect of clam shells through amendment of Batard and Big Ebanga PIF substrate, on the growth promotion of seedlings and their protection against black Sigatoka disease (BSD). Plantain PIF seedlings of the two varieties were grown in a substrate amended with 1% concentration of the clam shells powder in the presence of negative control in the sterile and non-sterile conditions. Agromorphological characteristics, susceptibility level to BSD, total proteins and polyphenols content were assessed. Because of the presence of clam shells in the substrates, explants germinated quickly, generated high number of shoots, grew taller by 32%, with a diameter of pseudo stems of 30%, and area of leaves of 18% compared to control. In addition, the seedlings were less susceptible to BSD by 73% compared to those of controls. The treatment seems to allow the accumulation of larger amounts of total proteins and polyphenols before inoculation and after inoculation that could participate in the growth promotion and the reduction of plant's susceptibility level. Clam shells treatment acts as a biofertilizer/biopesticide and could be helpful to boost production of plantain seedlings, the use of the by-products of fishing in agriculture and helps alleviate poverty of small holders' farmers.

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Disease Resistance Mechanisms in Plants

Cited by 324 publications

References 349 publications

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Impact of plant genotype and plant habitat in shaping bacterial pathobiome: a comparative study in olive tree

Potential Biostimulant Effect of Clam Shells on Growth Promotion of Plantain PIF Seedlings (<i>var</i>. Big Ebanga & Batard) and Relation to Black Sigatoka Disease Susceptibility

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Disease Resistance Mechanisms in Plants

Cited by 324 publications

References 349 publications

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Combined De Novo Transcriptome and Metabolome Analysis of Common Bean Response to Fusarium oxysporum f. sp. phaseoli Infection

Impact of plant genotype and plant habitat in shaping bacterial pathobiome: a comparative study in olive tree

Potential Biostimulant Effect of Clam Shells on Growth Promotion of Plantain PIF Seedlings (&lt;i&gt;var&lt;/i&gt;. Big Ebanga &amp; Batard) and Relation to Black Sigatoka Disease Susceptibility

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Potential Biostimulant Effect of Clam Shells on Growth Promotion of Plantain PIF Seedlings (<i>var</i>. Big Ebanga & Batard) and Relation to Black Sigatoka Disease Susceptibility