The role of ethylene receptors in avocado ripening

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The role of ethylene receptors in avocado ripening

Year: 

2010

Source of publication :

Acta Horticulturae

Authors :

Ben-Arie, Ruth

;

Feygenberg, Oleg

;

Friedman, Haya

;

Hershkovitz, Vera

;

Pesis, Edna

.

Volume :

858

From page: 

143

To page: 

148

(

Total pages: 

6

)

Link :

The role of ethylene receptors in avocado ripening

Abstract: 

To elucidate the role of ethylene receptors in avocado ripening and storage, we have isolated avocado (Persea americana Mill. 'Arad') homologues of the ethylene receptor genes, referred to as PaETR and PaERS1. The basal levels of PaETR and PaERS1 mRNA in avocado mesocarp were very low at harvest and were hyper-induced by exogenous ethylene treatment. The expression of both genes also increased in parallel to the onset of climacteric ethylene peak, suggesting that increase in endogenous ethylene leads to increase in these genes' expression. Application of the ethylene inhibitor, 1-methylcyclopropene (1-MCP) at harvest delayed ethylene production and down-regulated expression of PaETR and PaERS1 genes. PaETR mRNA expression in tissues taken from various distances from the seed revealed that the expression was highest close to the base of the seed and was reduced gradually toward the blossom end. We suggest that ethylene receptors are involved in regulation of ethylene responsiveness during ripening and act to protect the tissue against ethylene injury.

1-MCP

Ethylene production

gene expression

Persea americana

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Scientific Publication

The role of ethylene receptors in avocado ripening

858

The role of ethylene receptors in avocado ripening

To elucidate the role of ethylene receptors in avocado ripening and storage, we have isolated avocado (Persea americana Mill. 'Arad') homologues of the ethylene receptor genes, referred to as PaETR and PaERS1. The basal levels of PaETR and PaERS1 mRNA in avocado mesocarp were very low at harvest and were hyper-induced by exogenous ethylene treatment. The expression of both genes also increased in parallel to the onset of climacteric ethylene peak, suggesting that increase in endogenous ethylene leads to increase in these genes' expression. Application of the ethylene inhibitor, 1-methylcyclopropene (1-MCP) at harvest delayed ethylene production and down-regulated expression of PaETR and PaERS1 genes. PaETR mRNA expression in tissues taken from various distances from the seed revealed that the expression was highest close to the base of the seed and was reduced gradually toward the blossom end. We suggest that ethylene receptors are involved in regulation of ethylene responsiveness during ripening and act to protect the tissue against ethylene injury.

Scientific Publication

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