Abstract
Since the discovery of1-(malonylamino)cyclopropane-1-carboxylic acid (MACC)as a major metabolite of both endogenous andexogenously applied 1-aminocyclopropane-1-carboxylicacid (ACC), it has become evident that the formationof MACC from ACC can act to regulate ethyleneproduction in certain tissues. Hence it was suggestedthat MACC could serve as an indicator of water-stresshistory in plant tissues. The accurate quantificationof MACC in plant tissues is essential forunderstanding the role of MACC in the regulation ofethylene biosynthesis.Hoffman et al. [15] described a method for themeasurement of MACC in which MACC was hydrolysed byHCl to ACC, which was then assayed by chemicaloxidation to form ethylene. Attempts have been made byothers to raise monoclonal antibodies to MACC so thatan immunoassay could be developed in order to gain adeeper understanding of stress-induced ethyleneproduction but no further publications have beenforthcoming.Here a method employing GC-MS is compared with theindirect assay for MACC, which is based uponhydrolysis of MACC to ACC and conversion of ACC byhypochlorite reagent to ethylene which is subsequentlyquantified by GC.
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