Biochemical, immunological and genetic characterization of natural gramine-free variants of Hordeum vulgare L.

Abstract

Many barley cultivars (e.g. Arimar) contain the indole alkaloid gramine, but some do not. Among seven gramine-free cultivars tested, two phenotypic classes were found: those with a normal level of the N-methyltransferase (NMT) activity that catalyzes the last two steps of gramine synthesis (e.g. Proctor); and those having neither NMT activity nor protein recognized by polyclonal antibodies raised against purified NMT (e.g. Morex). A 3 × 3 diallel cross with reciprocals was made using cultivars Arimar, Proctor and Morex. The pattern of occurrence of gramine and NMT activity among the F 1 hybrids suggested that Proctor and Morex carried defective alleles of the same nuclear gene governing an early step in the indole alkaloid pathway, and that Morex also carried a recessive allele at a nuclear locus encoding NMT activity. However, no non-parental alkaloid phenotypes were found in the F 2 generation from an Arimar × Morex cross and the ratio of progeny with gramine to those with no alkaloids was 3 : 1. One explanation of these results is tight linkage between genes controlling two of the steps in gramine biosynthesis.