Differential feedback regulation of ethylene biosynthesis in pulp and peel tissues of banana fruit

Inaba, Akitsugu; Liu, Xuejun; Yokotani, Naoki; Yamane, Minoru; Lu, Wang Jin; Nakano, Ryohei; Kubo, Yasutaka

doi:10.1093/jxb/erl265

Cited by 82 publications

(69 citation statements)

References 36 publications

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“…Ten days after harvest, ethylene production of all fruits (with or without AVG spraying) was not significant different. This result is quite appropriate with results previously reported by Innaba [Innaba et al, 2007] respectively.…”

Section: Effect Of Avg Spraying Time On Ethylene Production Of Bananasupporting

confidence: 93%

Effects of AminoethoxyVinylGlycine (AVG) Spraying Time at Preharvest Stage to Ethylene Biosynthesis of Cavendish Banana (Musa AAA)

Tán¹,

Toan²,

Hoang³

et al. 2011

JAS

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This research aimed to identify the possible effects of the moment of Aminoethoxyvinylglycine (AVG) application during near harvest period on ethylene biosynthesis and find out the most appropriate possible way to control the process for maximum prolonging the postharvest shelf -life of bananas. Results indicated that the most appropriate moment of AVG application is from the 74 th to 78 th days after formation of the last hand of a bunch has been finished as AVG showed some inhibition effects on ACC, ACC oxydase and ethylene synthesis. ACC, ACC oxydase and ethylene production of the fruits sprayed with AVG of 0.8 g/l on the 78 th day, harvested and stored at 13±1 o C for four weeks were 1.09 (nmol C 2 H 4 .g ) respectively while the ACC, ACC oxydase and ethylene production of non -treated fruits stored in the same conditions were 6.89 (nmol C 2 H 4 .g

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Section: Effect Of Avg Spraying Time On Ethylene Production Of Bananasupporting

confidence: 93%

Effects of AminoethoxyVinylGlycine (AVG) Spraying Time at Preharvest Stage to Ethylene Biosynthesis of Cavendish Banana (Musa AAA)

Tán¹,

Toan²,

Hoang³

et al. 2011

JAS

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“…However, Trivellini et al (2011) have shown that ethylene biosynthesis can be under both positive and negative feedback regulatory mechanisms in a tissue-temporal-specific manner during flower development and senescence depending on differential expression of ACS and ACO genes. Similarly, the studies in tomato and banana have shown a differential feedback regulation of ethylene biosynthesis enzymes between pre-climacteric and ripening fruits and also between different tissues (Nakatsuka et al 1998;Inaba et al 2007). …”

Section: Generative Phase Of Developmentmentioning

confidence: 92%

“…A positive feedback regulation, through an increase in ethylene production triggered by exogenous ethylene, with the activation of ACS and/or ACO has been reported for petunia (Tang and Woodson 1996), carnation (Jones and Woodson 1997), and orchid (O'Neill et al 1993). A negative feedback regulation has been shown for transgenic petunia flowers (Wilkinson et al 1997) and ripening tomato and banana (Nakatsuka et al 1998;Inaba et al 2007). However, Trivellini et al (2011) have shown that ethylene biosynthesis can be under both positive and negative feedback regulatory mechanisms in a tissue-temporal-specific manner during flower development and senescence depending on differential expression of ACS and ACO genes.…”

Section: Generative Phase Of Developmentmentioning

confidence: 95%

Regulation of ethylene biosynthesis at the level of 1-aminocyclopropane-1-carboxylate oxidase (ACO) gene

2012

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Ethylene, a gaseous plant hormone regulates essentially all physiological processes during the plant's life cycle. The practical implications of ethylene biosynthesis regulation for plant improvement have supported the continuous basic research on dissecting the structure of genes encoding ethylene biosynthetic enzymes, their differential expression patterns, and mechanisms underlying their transcriptional activity. ACC oxidase (ACO) is involved in the final step of ethylene production in plant tissues. In various plants several ACO isoforms have been isolated which are encoded by a multigenic family. There is a strong evidence that ACO gene expression is positively correlated to the ethylene production rates and its multiple isoforms are under development and environmental control. Thus, the regulation of ACO gene activity may act either as an additional or in several cases also as a main level for controlling ethylene biosynthesis in higher plants. This review summarizes in detail the knowledge about organization and gene structure, and transcriptional expression of ACO genes from different plant species. The perspectives of manipulating ACO gene as a method in biotechnological modification of ethylene synthesis are also discussed.

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“…Indeed, the change in phenolic content in immature green fruit unable to respond to ethylene might be under the control of developmental cues while in mature green fruit both ethylene and developmental cues might be involved. Recent progress on the ripening process in banana strongly suggests that the ripening process of banana peel tissue clearly differs from that of the pulp (Domínguez and Vendrell, 1994;Clendennen and May, 1997;Inaba et al, 2007), thus suggesting tissuespecific regulation of the ripening process in this species. Independent of climactic season and fruit physiological stage at harvest, phenol content accumulates differentially in peel tissue compared to pulp tissue during ripening.…”

Section: Fig 3 Modification Of Enthalpy Limits For the Wp And Dpmentioning

confidence: 99%

Effect of physiological harvest stages on the composition of bioactive compounds in Cavendish bananas

Bonnet

Hubert

Mbéguié-A-Mbéguié

et al. 2013

J. Zhejiang Univ. Sci. B

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The combined influence of maturation, ripening, and climate on the profile of bioactive compounds was studied in banana (Musa acuminata, AAA, Cavendish, cv. Grande Naine). Their bioactive compounds were determined by the Folin-Ciocalteu assay and high-performance thin layer chromatographic (HPTLC) method. The polyphenol content of bananas harvested after 400 degree days remained unchanged during ripening, while bananas harvested after 600 and 900 degree days exhibited a significant polyphenol increase. Although dopamine was the polyphenol with the highest concentration in banana peels during the green developmental stage and ripening, its kinetics differed from the total polyphenol profile. Our results showed that this matrix of choice (maturation, ripening, and climate) may allow selection of the banana (M. acuminata, AAA, Cavendish, cv. Grande Naine) status that will produce optimal concentrations of identified compounds with human health relevance.

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Differential feedback regulation of ethylene biosynthesis in pulp and peel tissues of banana fruit

Cited by 82 publications

References 36 publications

Effects of AminoethoxyVinylGlycine (AVG) Spraying Time at Preharvest Stage to Ethylene Biosynthesis of Cavendish Banana (Musa AAA)

Effects of AminoethoxyVinylGlycine (AVG) Spraying Time at Preharvest Stage to Ethylene Biosynthesis of Cavendish Banana (Musa AAA)

Regulation of ethylene biosynthesis at the level of 1-aminocyclopropane-1-carboxylate oxidase (ACO) gene

Effect of physiological harvest stages on the composition of bioactive compounds in Cavendish bananas

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