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Literature DB >> 16658541

Turgor-dependent Changes in Avena Coleoptile Cell Wall Composition.

Abstract

The effects of reduced turgor pressure on growth, as measured by cell elongation, and on auxin-mediated changes in cell walls, as measured by analyses of wall composition, were examined using Avena coleoptile segments. Although moderate (1-4 bar) decreases in turgor resulted in a progressive decline in growth proportional to the decrease in turgor, the major auxin-induced change in wall composition, a decrease in noncellulosic wall glucose, was unaffected. Severe (5-8 bar) decreases, however, did inhibit this auxin effect on the wall, and with turgor decreases of 9 bars or more this auxin effect was no longer apparent. The results show that turgor pressure is required for this auxin-mediated wall modification and also that this modification of wall glucose occurs at turgor pressures less than those required for wall extension. Changes in other wall components were generally unaffected by altering turgor pressure.

Entities: Chemical

Year: 1973 PMID： 16658541 PMCID： PMC366479 DOI： 10.1104/pp.52.3.248

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

10 in total

11 in total

6. Changes in molecular size of previously deposited and newly synthesized pea cell wall matrix polysaccharides : effects of auxin and turgor.

Authors: L D Talbott; P M Ray
Journal: Plant Physiol Date: 1992-01 Impact factor: 8.340

7. beta-d-Glucan Antibodies Inhibit Auxin-Induced Cell Elongation and Changes in the Cell Wall of Zea Coleoptile Segments.

Authors: T Hoson; D J Nevins
Journal: Plant Physiol Date: 1989-08 Impact factor: 8.340

Turgor-dependent Changes in Avena Coleoptile Cell Wall Composition.

1. The Effect of Auxin on Synthesis of Oat Coleoptile Cell Wall Constituents.

2. Effect of Water Stress on Cell Wall Metabolism of Avena Coleoptile Tissue.

3. Metabolic and physical control of cell elongation rate: in vivo studies in nitella.

4. Auxin-Induced Water Uptake by Avena Coleoptile Sections.

5. Auxin-induced Changes in Avena Coleoptile Cell Wall Composition.

6. Sugar composition of oat-coleoptile cell walls.

7. Maize leaf elongation: continuous measurements and close dependence on plant water status.

8. Metabolic turnover in cell wall constituents of Avena sativa L. coleoptile sections.

9. Induction of coleoptile elongation by carbon dioxide.

10. Evidence for osmotic regulation of hydrolytic enzyme production in germinating barley seeds.

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

2. Structure of the arabinogalactan from zea shoots.

3. Periplasm turgor pressure controls wall deposition and assembly in growing Chara corallina cells.

4. Turgor pressure moves polysaccharides into growing cell walls of Chara corallina.

5. Auxin-enhanced glucan autohydrolysis in maize coleoptile cell walls.

6. Changes in molecular size of previously deposited and newly synthesized pea cell wall matrix polysaccharides : effects of auxin and turgor.

7. beta-d-Glucan Antibodies Inhibit Auxin-Induced Cell Elongation and Changes in the Cell Wall of Zea Coleoptile Segments.

8. beta-d-Glucan of Avena Coleoptile Cell Walls.

9. Transient Nature of a (1 --> 3), (1 --> 4)-beta-d-Glucan in Zea mays Coleoptile Cell Walls.

10. Relationship between Promotion of Xyloglucan Metabolism and Induction of Elongation by Indoleacetic Acid.