| Abstract: | Ureide concentration in the cortical apoplast of soybean (Glycinemax(L.) Merr.) nodules increases rapidly in response to noduleexcision. The objective here was to determine if changes inapoplastic ureide may be related to the control of resistanceto gas diffusion which is thought to be localized in the nodulecortex. Following decapitation of shoots, nitrogenase activity(acetylene reduction) and ureide concentration in total noduleextracts declined over a period of several hours. Apoplasticureide concentration relative to total nodule ureide was elevatedunder these conditions, but the treatment effect was small comparedto non-decapitated controls. Decapitation also caused a significantdecline in the concentrations of sucrose, glucose, and D-pinitolin nodules. However, the decline in carbohydrates was similarin the nodule cortex and the nodule as a whole, suggesting thatthe carbohydrate changes are not related to a cortex-localizedmechanism. Non-invasive treatments involving increases or decreasesin oxygen concentration supplied to nodulated roots caused rapiddecreases in respiration of nodulated roots and in ureide concentrationin total nodule extracts, but did not cause major changes inapoplastic ureide concentrations. The combined results indicatethat apoplastic ureide is probably not involved in the regulationof resistance to gas diffusion. The rapid decline in noduleureide concentrations in response to changing oxygen supplydocuments the sensitivity of ureide synthesis and/or transportto alterations in nodule respiration and/or nitrogenase activity Key words: Glycine max, Pisum sativum, ureide, carbohydrates |
