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Literature DB >> 24241846

Ethylene biosynthesis in isolated vacuoles of Vicia faba L. - requirement for membrane integrity.

Abstract

The ability of vacuoles prepared from V. faba leaves to convert 1-aminocyclopropane-1-carboxylic acid to C2H4 was destroyed when vacuoles were lysed by passage through a hypodermic needle, freezing and thawing, osmotic shock, treatment with ethanol or with a detergent. Ethylene synthesis in the vacuolar fraction was also inhibited by the uncouplers carbonyl cyanide m-chlorophenyl hydrazone and dinitrophenol and by the ionophores valinomycin, nigericin, and A23187. Ethylene formation increased with increasing pH of the incubation medium over the pH range of 5.0-7.5. These observations support the hypothesis that C2H4 biosynthesis in vacuolar preparations is dependent on membrane integrity, possibly because of the requirement for a transmembrane ion gradient.

Entities: Chemical Species

Year: 1986 PMID： 24241846 DOI： 10.1007/BF00391410

Source DB: PubMed Journal: Planta ISSN： 0032-0935 Impact factor: 4.116

15 in total

1. Distribution of the Enzymes of Nitrogen Assimilation within the Pea Leaf Cell.

Authors: R M Wallsgrove; P J Lea; B J Miflin
Journal: Plant Physiol Date: 1979-02 Impact factor: 8.340

2. Isolation and Characterization of Vacuoles from Melilotus alba Mesophyll.

Authors: A M Boudet; H Canut; G Alibert
Journal: Plant Physiol Date: 1981-12 Impact factor: 8.340

3. Ionophores.

Authors: P W Reed
Journal: Methods Enzymol Date: 1979 Impact factor: 1.600

4. Ethylene formation in Pisum sativum and Vicia faba protoplasts.

Authors: M Guy; H Kende
Journal: Planta Date: 1984-03 Impact factor: 4.116

5. Cell-free ethylene-forming systems lack stereochemical fidelity.

Authors: M A Venis
Journal: Planta Date: 1984-09 Impact factor: 4.116

6. A comparison of the conversion of 1-amino-2-ethylcyclopropane-1-carboxylic acid stereoisomers to 1-butene by pea epicotyls and by a cell-free system.

Authors: T A McKeon
Journal: Planta Date: 1984-01 Impact factor: 4.116

7. Conversion of 1-aminocyclopropane-1-carboxylic acid to ethylene by isolated vacuoles of Pisum sativum L.

Authors: M Guy; H Kende
Journal: Planta Date: 1984-03 Impact factor: 4.116

8. Hydrolytic enzymes in the central vacuole of plant cells.

Authors: T Boller; H Kende
Journal: Plant Physiol Date: 1979-06 Impact factor: 8.340

9. Inhibition of the Conversion of 1-Aminocyclopropane-1-carboxylic Acid to Ethylene by Structural Analogs, Inhibitors of Electron Transfer, Uncouplers of Oxidative Phosphorylation, and Free Radical Scavengers.

Authors: A Apelbaum; S Y Wang; A C Burgoon; J E Baker; M Lieberman
Journal: Plant Physiol Date: 1981-01 Impact factor: 8.340

10. Inhibition of ethylene production by 2,4-dinitrophenol and high temperature.

Authors: Y B Yu; D O Adams; S F Yang
Journal: Plant Physiol Date: 1980-08 Impact factor: 8.340

4 in total

1. 1-Aminocyclopropane-1-carboxylic-acid-dependent ethylene production during re-formation of vacuoles in evacuolated protoplasts of Petunia hybrida.

Authors: H Erdmann; R J Griesbach; R H Lawson; A K Mattoo
Journal: Planta Date: 1989-09 Impact factor: 4.116

2. The physiological role of lipoxygenase in ethylene formation from 1-aminocyclopropane-1-carboxylic acid in oat leaves.

Authors: T T Wang; S F Yang
Journal: Planta Date: 1987-02 Impact factor: 4.116

3. Immunocytolocalization of 1-aminocyclopropane-1-carboxylic acid oxidase in tomato and apple fruit.

Authors: C Rombaldi; J M Lelièvre; A Latché; M Petitprez; M Bouzayen; J C Pech
Journal: Planta Date: 1994 Impact factor: 4.116

Review 4. 1-Aminocyclopropane-1-Carboxylic Acid Oxidase (ACO): The Enzyme That Makes the Plant Hormone Ethylene.

Authors: Maarten Houben; Bram Van de Poel
Journal: Front Plant Sci Date: 2019-05-29 Impact factor: 5.753

4 in total