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Literature DB >> 16659306

Promotion of Xyloglucan Metabolism by Acid pH.

Abstract

Like indoleacetic acid, buffers of acidic pH, which stimulate elongation of pea (Pisum sativum var. Alaska) stem tissue, induce the appearance within the tissue of a watersoluble xyloglucan polymer that probably arises from previously deposited wall material. Neutral pH buffers, which inhibit the elongation response to indoleacetic acid in this tissue, inhibit indoleacetic acid-induced increase in soluble xyloglucan. The findings provide further evidence that release of soluble xyloglucan from the cell walls of pea results from the biochemical action on the cell wall that is responsible for wall extension. The data also indicate that treatment of tissue with either auxin or acidic pH has a similar biochemical effect on the cell wall. This is consistent with the H(+) secretion theory of auxin action.

Entities: Chemical Species

Year: 1975 PMID： 16659306 PMCID： PMC541826 DOI： 10.1104/pp.56.3.373

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

12 in total

Promotion of Xyloglucan Metabolism by Acid pH.

1. Studies on the Growth of Coleoptile and First Internode Sections. A New, Sensitive, Straight-Growth Test for Auxins.

2. Enhancement of wall loosening and elongation by Acid solutions.

3. Evidence Against the Involvement of Galactosidase or Glucosidase in Auxin- or Acid-stimulated Growth.

4. Studies on the Growth Hormone of Plants: I.

5. An in vitro system that simulates plant cell extension growth.

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

7. Turnover of cell wall polysaccharides in elongating pea stem segments.

8. Inactivity of 3-methyleneoxindole as mediator of auxin action on cell elongation.

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

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

1. Osmotic Shock Inhibits Auxin-stimulated Acidification and Growth.

2. The roles of cell-wall acidification and proton-pump stimulation in auxin-induced growth: studies using monensin.

3. Some properties of carbohydrate-binding proteins (lectins) solubilized from cell walls of Phaseolus aureus.

4. Auxin-induced H Secretion in Helianthus and Its Implications.

5. Cell Wall Metabolism in Ripening Fruit: II. CHANGES IN CARBOHYDRATE-DEGRADING ENZYMES IN RIPENING ;BARTLETT' PEARS.

6. Effect of IAA on Growth and Soluble Cell Wall Polysaccharides Centrifuged from Pine Hypocotyl Sections.

7. Vanadate inhibition of auxin-enhanced H secretion and elongation in pea epicotyls and oat coleoptiles.

8. Phytochrome-controlled Hydrogen Ion Excretion by Avena Coleoptiles.

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

10. The relationship between xyloglucan endotransglycosylase and in-vitro cell wall extension in cucumber hypocotyls.