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Literature DB >> 16660126

Auxin-induced H Secretion in Helianthus and Its Implications.

J Mentze¹, B Raymond, J D Cohen, D L Rayle.

Abstract

We have examined the ability of Helianthus hypocotyl segments as well as segments from a variety of other species to elongate in response to H(+) and to secrete H(+) in response to auxin and fusicoccin. In all cases a positive response was obtained when the cuticular barrier was abraded with carborundum. Removal of the cuticular barrier by "peeling" prevented detection of both auxin-induced elongation and H(+) secretion. Fusicoccin-induced growth and acid secretion are not prevented by peeling. These results suggest considerable tissue selectivity with respect to auxin action but considerably less specificity with respect to fusicoccin. It seems likely that in many dicots auxin-enhanced proton secretion and elongation are controlled by the epidermis and/or closely associated cell layers. The data presented in this paper provide further support for the acid growth theory of auxin action.

Entities: Chemical Species

Year: 1977 PMID： 16660126 PMCID： PMC542652 DOI： 10.1104/pp.60.4.509

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

8 in total

16 in total

4. Solute production and net wall synthesis in the growing and non-growing cells of gravistimulated sunflower hypocotyls.

Authors: C M Carrington; R D Firn
Journal: Planta Date: 1983-05 Impact factor: 4.116

Auxin-induced H Secretion in Helianthus and Its Implications.

1. Promotion of Xyloglucan Metabolism by Acid pH.

2. Growth rate and turgor pressure: auxin effect studies with an automated apparatus for single coleoptiles.

3. Kinetics of Hormone-induced H Excretion.

4. Separation of two responses to auxin by means of cytokinin inhibition.

5. Auxin-induced hydrogen ion excretion from Avena coleoptiles.

6. Activation of Avena coleoptile cell wall glycosidases by hydrogen ions and auxin.

7. Auxin Does Not Alter the Permeability of Pea Segments to Tritium-labeled Water.

8. Rapid Auxin-induced Decrease in Free Space pH and Its Relationship to Auxin-induced Growth in Maize and Pea.

1. The epidermis of the pea epicotyl is not a unique target tissue for auxin-induced growth.

2. pH-Dependence of Extension Growth in Avena Coleoptiles and Its Implications for the Mechanism of Auxin Action.

3. Evidence that Auxin-induced Growth of Soybean Hypocotyls Involves Proton Excretion.

4. Solute production and net wall synthesis in the growing and non-growing cells of gravistimulated sunflower hypocotyls.

5. Low proton conductance of plant cuticles and its relevance to the Acid-growth theory.

6. Sequence of key events in shoot gravitropism.

7. Auxin Uptake and the Rapid Auxin-Induced Growth in Isolated Sections of Helianthus annuus.

8. A Comparison of Acid-induced Cell Wall Loosening in Valonia ventricosa and in Oat Coleoptiles.

9. Cooperation of epidermis and inner tissues in auxin-mediated growth of maize coleoptiles.

10. Kinetic studies on the redistribution of endogenous growth regulators in gravireacting plant organs.