Carbohydrate Content and Enzyme Metabolism in Developing Canola Siliques

Author:

King S. P.1,Lunn J. E.1,Furbank R. T.1

Affiliation:

1. Cooperative Research Centre for Plant Science, Commonwealth Scientific and Industrial Research Organization Plant Industry, G.P.O. Box 1600, Canberra, ACT 2601, Australia (S.P.K., J.E.L., R.T.F.)

Abstract

Abstract Little biochemical information is available on carbohydrate metabolism in developing canola (Brassica napus L.) silique (pod) wall and seed tissues. This research examines the carbohydrate contents and sucrose (Suc) metabolic enzyme activities in different aged silique wall and seed tissues during oil filling. The silique wall partitioned photosynthate into Suc over starch and predominantly accumulated hexose. The silique wall hexose content and soluble acid invertase activity rapidly fell as embryos progressed from the early- to late-cotyledon developmental stages. A similar trend was not evident for alkaline invertase, Suc synthase (SuSy), and Suc-phosphate synthase. Silique wall SuSy activities were much higher than source leaves at all times and may serve to supply the substrate for secondary cell wall thickening. In young seeds starch was the predominant accumulated carbohydrate over the sampled developmental range. Seed hexose levels dropped as embryos developed from the early- to midcotyledon stage. Hexose and starch were localized to the testa or liquid endosperm, whereas Suc was evenly distributed among seed components. With the switch to oil accumulation, seed SuSy activity increased by 3.6-fold and soluble acid invertase activity decreased by 76%. These data provide valuable baseline knowledge for the genetic manipulation of canola seed carbon partitioning.

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

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