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Literature DB >> 16657760

Auxin and red light in the control of hypocotyl hook opening in beans.

Abstract

Evidence is presented to support the suggestion that endogenous auxinlike substances participate in controlling the unbending of the hypocotyl hook of Phaseolus vulgaris L. (cv. Black Valentine). An acidic indole was detected in hook diffusates by fluorometry; triiodobenzoic acid, an inhibitor of auxin transport, prevented red light-induced unbending, and indoleacetic acid can be substituted for tissue just above the elbow region as an inhibitor of opening. Indoleacetic acid also stimulated growth of shank cells, and red light increased the sensitivity of this tissue to the hormone. A small red light-induced stimulation of auxin transport through the inside half of the hypocotyl shank was observed and may be related to light-induced unbending of the hook.

Entities: Chemical Disease Species

Year: 1971 PMID： 16657760 PMCID： PMC396828 DOI： 10.1104/pp.48.2.187

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

8 in total

11 in total

4. Ion Fluxes and Phytochrome Protons in Mung Bean Hypocotyl Segments: II. Fluxes of Chloride, Protons, and Orthophosphate in Apical and Subhook Segments.

Authors: C Brownlee; R E Kendrick
Journal: Plant Physiol Date: 1979-08 Impact factor: 8.340

5. Physiology of Movements in Stems of Seedling Pisum sativum L. cv Alaska : II. The Role of the Apical Hook and of Auxin in Nutation.

Authors: S J Britz; A W Galston
Journal: Plant Physiol Date: 1982-11 Impact factor: 8.340

6. Ethylene as a natural agent inducing plumular hook formation in pea seedlings.

Authors: B G Kang; S P Burg
Journal: Planta Date: 1972-12 Impact factor: 4.116

7. The effect of light and phytochrome on 1-aminocyclopropane-1-carboxylic Acid metabolism in etiolated wheat seedling leaves.

Authors: X Z Jiao; W K Yip; S F Yang
Journal: Plant Physiol Date: 1987-11 Impact factor: 8.340

Auxin and red light in the control of hypocotyl hook opening in beans.

1. An effect of light on the production of ethylene and the growth of the plumular portion of etiolated pea seedlings.

2. Regulation of Ethylene Evolution and Leaf Abscission by Auxin.

3. The Role of Various Regions of the Bean Hypocotyl on Red Light-induced Hook Opening.

4. Response of the Hypocotyl Hook of Bean Seedlings to Radiant Energy and Other Factors.

5. Gravitational compensation and the phototropic response of oat coleoptiles.

6. Factors involved in the opening of the hypocotyl hook of cotton and beans.

7. Polar transport related to mobilization of plant constituents.

8. Ethylene and carbon dioxide: mediation of hypocotyl hook-opening response.

1. Effects of red light and ethylene on growth of etiolated lettuce seedlings.

2. Characteristics of hook formation by bean seedlings.

3. Hormone-solute interactions in the lettuce hypocotyl hook.

4. Ion Fluxes and Phytochrome Protons in Mung Bean Hypocotyl Segments: II. Fluxes of Chloride, Protons, and Orthophosphate in Apical and Subhook Segments.

5. Physiology of Movements in Stems of Seedling Pisum sativum L. cv Alaska : II. The Role of the Apical Hook and of Auxin in Nutation.

6. Ethylene as a natural agent inducing plumular hook formation in pea seedlings.

7. The effect of light and phytochrome on 1-aminocyclopropane-1-carboxylic Acid metabolism in etiolated wheat seedling leaves.

8. Red light enhancement of the phototropic response of etiolated pea stems.

9. The role of light and growth regulators in the opening of the dentaria petiolar hook.

10. Light triggers PILS-dependent reduction in nuclear auxin signalling for growth transition.