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Literature DB >> 16657065

Ethylene as a Component of the Emanations From Germinating Peanut Seeds and Its Effect on Dormant Virginia-type Seeds.

Abstract

The embryonic axes of Spanish-type peanut seeds that do not exhibit dormancy to any extent were found to produce ethylene during germination. Virginia-type peanut seeds of the extremely dormant variety NC-13 produced low levels of ethylene when imbibed but not germinating. Treatments that released dormancy of NC-13 peanut seeds resulted in increased ethylene production by the embryonic axis. The estimated internal concentration of ethylene in Virginia-type peanut seeds was 0.4 ppm at 24 hr of germination. Fumigation with an external concentration of 3.0 to 3.5 ppm for 6 hr was sufficient to break dormancy of Virginia-type peanut seeds. These results suggest that ethylene is associated with the germination processes of non-dormant seeds and participates in the breaking of seed dormancy of dormant peanut varieties.

Entities: Chemical Disease Species

Year: 1969 PMID： 16657065 PMCID： PMC396086 DOI： 10.1104/pp.44.3.326

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

7 in total

1. ETHYLENE PRODUCTION AND LIPID MOBILIZATION DURING GERMINATION OF CASTOR BEANS.

Authors: M SPENCER; A O OLSON
Journal: Nature Date: 1965-02-13 Impact factor: 49.962

2. THE USE OF ETHYLENE, PROPYLENE, AND SIMILAR COMPOUNDS IN BREAKING THE REST PERIOD OF TUBERS, BULBS, CUTTINGS, AND SEEDS.

Authors: G A Vacha; R B Harvey
Journal: Plant Physiol Date: 1927-04 Impact factor: 8.340

22 in total

1. Dormancy regulation in subterranean clover seeds by ethylene.

Authors: Y Esashi; A C Leopold
Journal: Plant Physiol Date: 1969-10 Impact factor: 8.340

2. Antagonistic effects of high and low temperature pretreatments on the germination and pregermination ethylene synthesis of lettuce seeds.

Authors: A N Burdett
Journal: Plant Physiol Date: 1972-08 Impact factor: 8.340

6. Interactions between Gibberellic Acid, Ethylene, and Abscisic Acid in Control of Amylase Synthesis in Barley Aleurone Layers.

Authors: J V Jacobsen
Journal: Plant Physiol Date: 1973-01 Impact factor: 8.340

7. Physiology of Oil Seeds: IV. Role of Endogenous Ethylene and Inhibitory Regulators during Natural and Induced Afterripening of Dormant Virginia-type Peanut Seeds.

Authors: D L Ketring; P W Morgan
Journal: Plant Physiol Date: 1972-09 Impact factor: 8.340

Ethylene as a Component of the Emanations From Germinating Peanut Seeds and Its Effect on Dormant Virginia-type Seeds.

1. ETHYLENE PRODUCTION AND LIPID MOBILIZATION DURING GERMINATION OF CASTOR BEANS.

2. THE USE OF ETHYLENE, PROPYLENE, AND SIMILAR COMPOUNDS IN BREAKING THE REST PERIOD OF TUBERS, BULBS, CUTTINGS, AND SEEDS.

3. Factors Influencing Dormancy of Peanut Seeds.

4. Role of Ethylene in Fruit Ripening.

5. An explanation of the inhibition of root growth caused by indole-3-acetic Acid.

6. Molecular requirements for the biological activity of ethylene.

7. Ethylene as a factor regulating the growth of pea epicotyls subjected to physical stress.

1. Dormancy regulation in subterranean clover seeds by ethylene.

2. Antagonistic effects of high and low temperature pretreatments on the germination and pregermination ethylene synthesis of lettuce seeds.

3. Physiology of Oil Seeds: II. Dormancy Release in Virginia-type Peanut Seeds by Plant Growth Regulators.

4. Physiology of oil seeds: I. Regulation of dormancy in virginia-type peanut seeds.

5. Enhancement of germination rate of aged seeds by ethylene.

6. Interactions between Gibberellic Acid, Ethylene, and Abscisic Acid in Control of Amylase Synthesis in Barley Aleurone Layers.

7. Physiology of Oil Seeds: IV. Role of Endogenous Ethylene and Inhibitory Regulators during Natural and Induced Afterripening of Dormant Virginia-type Peanut Seeds.

8. Flowering and Growth Response of Peanut Plants (Arachis hypogaea L. var. Starr) at Two Levels of Relative Humidity.

9. Ethylene synthesis in lettuce seeds: its physiological significance.

10. Two C2H 4-producing systems in cocklebur seeds.