Ethylene and auxin biosynthesis and signaling are impaired by methyl jasmonate leading to a transient slowing down of ripening in peach fruit

Peach (Prunus persica) was chosen as a model to further clarify the physiological role of jasmonates (JAs) during fruit ripening. To this aim, the effect of methyl jasmonate (MJ, 0.88mM), applied at a late stage (S3) of fruit development under field conditions (in planta), on the time-course of frui...

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Bibliographic Details
Published in:Journal of plant physiology 2012-12, Vol.169 (18), p.1858-1865
Main Authors: Soto, Alvaro, Ruiz, Karina B., Ziosi, Vanina, Costa, Guglielmo, Torrigiani, Patrizia
Format: Article
Language:English
Subjects:
Acetates - pharmacology
Auxin
auxins
Biological and medical sciences
biosynthesis
Cell Wall - metabolism
Cyclopentanes - pharmacology
Down-Regulation
Ethylene
Ethylenes - metabolism
Fruit - drug effects
Fruit - genetics
Fruit - growth & development
Fruit - physiology
Fruit ripening
fruiting
Fruits
Fundamental and applied biological sciences. Psychology
Gene Expression Profiling
gene expression regulation
Gene Expression Regulation, Plant - drug effects
Genes
Indoleacetic Acids - metabolism
jasmonic acid
Liquid oxygen
mesocarp
messenger RNA
Methyl jasmonate
Oxylipins - pharmacology
Peaches
Perception
Plant physiology and development
Plant Proteins - genetics
Prunus - drug effects
Prunus - genetics
Prunus - growth & development
Prunus - physiology
Prunus persica
quantitative polymerase chain reaction
Real-Time Polymerase Chain Reaction
Retarding
Ripening
RNA, Messenger - genetics
RNA, Plant - metabolism
Seedlings - drug effects
Seedlings - genetics
Seedlings - growth & development
Seedlings - physiology
Signal Transduction
Time Factors
transcription factors
Up-Regulation
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Summary:Peach (Prunus persica) was chosen as a model to further clarify the physiological role of jasmonates (JAs) during fruit ripening. To this aim, the effect of methyl jasmonate (MJ, 0.88mM), applied at a late stage (S3) of fruit development under field conditions (in planta), on the time-course of fruit ripening over a 14-day period was evaluated. As revealed by a non-destructive device called a DA-meter, exogenously applied MJ impaired the progression of ripening leading to less ripe fruit at harvest. To better understand the molecular basis of MJ interference with ripening, the time-course changes in the expression of ethylene-, cell wall-, and auxin-related genes as well as other genes (LOX, AOS and bZIP) was evaluated in the fruit mesocarp. Real-time PCR analyses revealed that transcript levels of ethylene-related genes were strongly affected. In a first phase (days 2 and/or 7) of the MJ response, mRNAs of the ethylene biosynthetic genes ACO1, ACS1 and the receptor gene ETR2 were strongly but transiently down-regulated, and then returned to or above control levels in a second phase (days 11 and/or 14). Auxin biosynthetic, conjugating, transport and perception gene transcripts were also affected. While biosynthetic genes (TRPB and IGPS) were up-regulated, auxin-conjugating (GH3), perception (TIR1) and transport (PIN1) genes were transiently but strongly down-regulated in a first phase, but returned to control levels subsequently. Transcript levels of two JA-related genes (LOX, AOS) and a developmentally regulated transcription factor (bZIP) were also affected, suggesting a shift ahead of the ripening process. Thus, in peach fruit, the transient slowing down of ripening by exogenous MJ was associated with an interference not only with ethylene but also with auxin-related genes.
ISSN:0176-1617
1618-1328
DOI:10.1016/j.jplph.2012.07.007