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Functional Plant Biology Functional Plant Biology Society
Plant function and evolutionary biology
RESEARCH ARTICLE

Cotyledonary Storage Proteins in Pisum sativum. IV. Effects of Sulfur, Phosphorus, Potassium and Magnesium Deficiencies

PJ Randall, JA Thomson and HE Schroeder

Australian Journal of Plant Physiology 6(1) 11 - 24
Published: 1979

Abstract

The quantitative and qualitative effects of deficiency of S, P, K or Mg on the cotyledonary proteins of pea seeds have been studied using chemical, immunological and electrophoretic techniques.

Deficiency of S, P or K causes characteristic and consistent changes in the proportions of certain proteins both outside and inside protein bodies of mature seeds. Amongst the storage proteins in the protein bodies, S deficiency results in a relative decrease in legumin and in vicilin peak 3, accompanied by a relative increase in the predominant vicilin, peak 4. A quantitatively major cotyledonary protein of unknown function, located outside protein bodies and consisting of 22- kdalton polypeptides, is decreased by S deficiency. Deficiencies of P or K cause an increase in the quantitatively minor vicilin peak 3 and also a marked relative increase in legumin. Mg deficiency has little effect on the proportions of the storage proteins.

The degree of nutrient deficiency is reflected in seed and plant yields. Total N and trichloroacetic acid (TCA)-insoluble N and the contents of some other mineral elements in the seed are given. A 10-fold increase in sulfur supply above the optimum for yield did not increase N or S in the TCA- insoluble fraction.

https://doi.org/10.1071/PP9790011

© CSIRO 1979

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