Evidence for Osmotic Regulation of Hydrolytic Enzyme Production in Germinating Barley Seeds

Overview

Journal Plant Physiol

Specialty Physiology

Date 1971 Aug 1

PMID 16657750

Citations 19

Authors

R L Jones

J E Armstrong

Affiliations

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Abstract

alpha-Amylase levels in intact seeds of barley (Hordeum vulgare L. cv. Himalaya) reach a maximum at 3 to 4 days of germination while gibberellin levels continue to increase beyond 6 days of germination. In contrast to its effect on half seeds, gibberellic acid does not increase the total amount of alpha-amylase produced in germinating seeds. The inability of gibberellic acid to stimulate alpha-amylase production is not related to its availability; rather, evidence suggests that a factor(s) in whole seeds prevents further enhancement of alpha-amylase formation and accumulation. Hydrolysis products accumulate in the subaleurone space of the endosperm of germinating seeds up to concentrations of 570 milliosmolar. Chromatography of these hydrolysis products indicate the presence of maltose and glucose. Calculations based on reducing sugar determinations show that glucose accounts for as much as 57% of the solutes present in the endosperm fluid. Both maltose and glucose in the range of 0.2 to 0.4 M effectively inhibit the production of alpha-amylase by isolated barley aleurone layers. This inhibition is quantitatively similar to that brought about by solutions of polyethylene glycol and mannitol. On the basis of these data we propose that hydrolysis products which accumulate in the starchy endosperm of germinating seeds function to regulate the production of hydrolytic enzymes by the aleurone layer.

Citing Articles

Seed Biology Updates - Highlights and New Discoveries in Seed Dormancy and Germination Research.

Nonogaki H Front Plant Sci. 2017; 8:524.

PMID: 28443117 PMC: 5387071. DOI: 10.3389/fpls.2017.00524.

Differential effects of mannitol on gibberellin-regulated phospholipid synthesis and enzyme activities of the CDP-choline pathway in barley aleurone cells.

Koehler D, Johnson K, Varner J, Kende H Planta. 2014; 104(3):267-71.

PMID: 24481740 DOI: 10.1007/BF00387082.

Synthesis and release of sucrose by the aleurone layer of barley: Regulation by gibberellic acid.

Chrispeels M, Tenner A, Johnson K Planta. 2014; 113(1):35-46.

PMID: 24468844 DOI: 10.1007/BF00385187.

Protoplasts isolated from aleurone layers of wild oat (Avena fatua L.) exhibit the classic response to gibberellic acid.

Hooley R Planta. 2013; 154(1):29-40.

PMID: 24275914 DOI: 10.1007/BF00385493.

The role of endogenous gibberellins in the formation of α-amylase by aleurone layers of germinating barley caryopses.

Atzorn R, Weiler E Planta. 2013; 159(4):289-99.

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References

Jacobsen J, Varner J . Gibberellic Acid-induced synthesis of protease by isolated aleurone layers of barley. Plant Physiol. 1967; 42(11):1596-600. PMC: 1086769. DOI: 10.1104/pp.42.11.1596. View

Paleg L . Physiological Effects of Gibberellic Acid: I. On Carbohydrate Metabolism and Amylase Activity of Barley Endosperm. Plant Physiol. 1960; 35(3):293-9. PMC: 405961. DOI: 10.1104/pp.35.3.293. View

Jones R . Ethylene enhanced release of alpha-amylase from barley aleurone cells. Plant Physiol. 1968; 43(3):442-4. PMC: 1086860. DOI: 10.1104/pp.43.3.442. View

Wright A, Welborn T, Fraser T . Effect of human growth hormone on 'insulin basic protein complex'. Nature. 1966; 210(5034):418. DOI: 10.1038/210418a0. View

Varner J . Gibberellic Acid Controlled Synthesis of alpha-Amylase in Barley Endosperm. Plant Physiol. 1964; 39(3):413-5. PMC: 550095. DOI: 10.1104/pp.39.3.413. View

Paleg L, Aspinall D, Coombe B, Nicholls P . Physiological Effects of Gibberellic Acid. VI. Other Gibberellins in Three Test Systems. Plant Physiol. 1964; 39(2):286-90. PMC: 550070. DOI: 10.1104/pp.39.2.286. View

Chrispeels M, Varner J . Gibberellic Acid-enhanced synthesis and release of alpha-amylase and ribonuclease by isolated barley and aleurone layers. Plant Physiol. 1967; 42(3):398-406. PMC: 1086548. DOI: 10.1104/pp.42.3.398. View

Jones R . Inhibition of Gibberellic Acid-induced alpha-Amylase Formation by Polyethylene Glycol and Mannitol. Plant Physiol. 1969; 44(1):101-4. PMC: 396045. DOI: 10.1104/pp.44.1.101. View

Chrispeels M, Varner J . Hormonal control of enzyme synthesis: on the mode of action of gibberellic Acid and abscisin in aleurone layers of barley. Plant Physiol. 1967; 42(7):1008-16. PMC: 1086663. DOI: 10.1104/pp.42.7.1008. View

10.

Filner P, Varner J . A test for de novo synthesis of enzymes: density labeling with H2O18 of barley alpha-amylase induced by gibberellic acid. Proc Natl Acad Sci U S A. 1967; 58(4):1520-6. PMC: 223955. DOI: 10.1073/pnas.58.4.1520. View

11.

Wilson C . Chromatographic separation of ribonucleases in corn. Biochim Biophys Acta. 1963; 68:177-84. DOI: 10.1016/0006-3002(63)90133-1. View