Depression of enzyme activities and gene expression of ACC synthase and ACC oxidase in cut carnation flowers under high-temperature conditions

被引：15

作者：

Yangkhamman, Pranom

Tanase, Koji

Ichimura, Kazuo

Fukai, Seiichi ^{[1
]}

机构：

[1] Kagawa Univ, Fac Agr, Kagawa 7610795, Japan

[2] Ehime Univ, United Grad Sch, Matsuyama, Ehime 7908566, Japan

[3] Natl Inst Floricultural Sci, Tsukuba, Ibaraki 3058519, Japan

来源：

PLANT GROWTH REGULATION | 2007年 / 53卷 / 03期

关键词：

carnation; ethylene; high temperature; ACC synthase; ACC oxidase;

D O I：

10.1007/s10725-007-9213-z

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

High-temperature depression of ethylene production in cut carnation flowers cv. 'Excerea' can occur because of inhibition of ACC synthase (ACS) and ACC oxidase (ACO) activities in flowers. Large differences were apparent between ACS activity in petals at 24 degrees C and 32 degrees C. These ACC-accumulation-related activities were markedly decreased in petals at 32 degrees C, indicating that a low ACS activity and ACC accumulation in petals are a factor of ethylene biosynthesis inhibition under high-temperature conditions. In addition, the respective expressions of DC-ACO1 and DC-ACS1 were low in both gynoecia and petals of flowers kept at 32 degrees C. Results indicate that low ACS and ACO activities under high-temperature conditions were transcriptionally regulated.

引用

页码：155 / 162

页数：8

共 44 条

[1] Depression of enzyme activities and gene expression of ACC synthase and ACC oxidase in cut carnation flowers under high-temperature conditions
Pranom Yangkhamman
Koji Tanase
Kazuo Ichimura
Seiichi Fukai
Plant Growth Regulation, 2007, 53 : 155 - 162
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Liu, JJ
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[3] 2-Aminooxyisobutyric acid inhibits the in vitro activities of both 1-Aminocyclopropane-1-carboxylate (ACC) synthase and ACC oxidase in ethylene biosynthetic pathway and prolongs vase life of cut carnation flowers
Yusuke Kosugi
Asami Matsuoka
Akane Higashi
Noriko Toyohara
Shigeru Satoh
Journal of Plant Biology, 2014, 57 : 218 - 224
[4] 2-Aminooxyisobutyric acid inhibits the in vitro activities of both 1-Aminocyclopropane-1-carboxylate (ACC) synthase and ACC oxidase in ethylene biosynthetic pathway and prolongs vase life of cut carnation flowers
Kosugi, Yusuke
Matsuoka, Asami
Higashi, Akane
Toyohara, Noriko
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JOURNAL OF PLANT BIOLOGY, 2014, 57 (04) : 218 - 224
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Liu, Huichao
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PROCEEDINGS OF THE INTERNATIONAL SYMPOSIUM ON THE ROLE OF POSTHARVEST TECHNOLOGY IN THE GLOBALISATION OF HORTICULTURE, 2008, (768): : 65 - 68
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Yangkhamman, P
Fukai, S
Ichimura, K
JOURNAL OF THE JAPANESE SOCIETY FOR HORTICULTURAL SCIENCE, 2005, 74 (04): : 337 - 341
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Wi, SJ
Park, KY
MOLECULES AND CELLS, 2002, 13 (02) : 209 - 220
[9] Differential expression of ACC synthase and ACC oxidase genes in mung bean leaves under saline and oxidative stresses
Ju-Dong Song
Kyung Hee Choi
Young-Jae Eu
Tae Hyong Rhew
Dong-Hee Lee
Choon-Hwan Lee
Journal of Plant Biology, 2001, 44 (2) : 118 - 126
[10] Enhanced expression of genes for ACC synthase, ACC oxidase, and NAC protein during high-temperature-induced necrosis of young inflorescences of Cymbidium
Mita, Satoru
Henmi, Ryuya
Ohno, Hajime
PHYSIOLOGIA PLANTARUM, 2006, 128 (03) : 476 - 486

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