Successful pod infections by M oniliophthora roreri result in differential T heobroma cacao gene expression depending on the clone's level of tolerance
An understanding of the tolerance mechanisms of T heobroma cacao used against M oniliophthora roreri , the causal agent of frosty pod rot, is important for the generation of stable disease‐tolerant clones. A comparative view was obtained of transcript populations of infected pods from two susceptibl...
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Veröffentlicht in: | Molecular plant pathology 2014-09, Vol.15 (7), p.698-710 |
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Hauptverfasser: | , , , , , , , , , |
Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | An understanding of the tolerance mechanisms of
T
heobroma cacao
used against
M
oniliophthora roreri
, the causal agent of frosty pod rot, is important for the generation of stable disease‐tolerant clones. A comparative view was obtained of transcript populations of infected pods from two susceptible and two tolerant clones using RNA sequence (
RNA
‐
S
eq) analysis. A total of 3009 transcripts showed differential expression among clones.
KEGG
(Kyoto Encyclopedia of Genes and Genomes) pathway analysis of differentially expressed genes indicated shifts in 152 different metabolic pathways between the tolerant and susceptible clones. Real‐time quantitative reverse transcription polymerase chain reaction (real‐time q
RT
‐
PCR
) analyses of 36 genes verified the differential expression. Regression analysis validated a uniform progression in gene expression in association with infection levels and fungal loads in the susceptible clones. Expression patterns observed in the susceptible clones diverged in tolerant clones, with many genes showing higher expression at a low level of infection and fungal load. Principal coordinate analyses of real‐time q
RT
‐
PCR
data separated the gene expression patterns between susceptible and tolerant clones for pods showing malformation. Although some genes were constitutively differentially expressed between clones, most results suggested that defence responses were induced at low fungal load in the tolerant clones. Several elicitor‐responsive genes were highly expressed in tolerant clones, suggesting rapid recognition of the pathogen and induction of defence genes. Expression patterns suggested that the jasmonic acid–ethylene‐ and/or salicylic acid‐mediated defence pathways were activated in the tolerant clones, being enhanced by reduced brassinosteroid (
BR
) biosynthesis and catabolic inactivation of both
BR
and abscisic acids. Finally, several genes associated with hypersensitive response‐like cell death were also induced in tolerant clones. |
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ISSN: | 1464-6722 1364-3703 |
DOI: | 10.1111/mpp.12126 |