| Abstract: | The downy mildew disease, incited by Sclerospora graminicola,is a major biotic constraint for pearl millet production inthe semi-arid tropics. Sources of resistance to this diseasehave been identified. However, the mechanism of host resistancestill remains obscure. The enzyme lipoxygenase (LOX) is knownto play a role in disease resistance in many host-pathosystems.In the present study, LOX activity was tested in seeds of differentgenotypes of pearl millet with different susceptibility to downymildew. The LOX assay of the seeds indicated a good correlationbetween enzyme activity and their downy mildew reaction in thefield. Maximum activity was recorded in seeds of highly resistantgenotypes and minimum activity was found in the highly susceptiblegenotypes. Seeds obtained from plants recovered from the downymildew disease had more LOX activity than that of the originalparent seeds. Thus, in seeds, the LOX activity can be used asa biochemical marker for screening different genotypes of pearlmillet for downy mildew. The study, carried out in the susceptiblegenotype of pearl millet seedlings, showed that LOX activitydecreased after inoculating with S. graminicola zoospores whencompared with uninoculated controls. However, a significantincrease in the enzyme activity was observed on the second andthird days after inoculation in resistant seedlings. The possiblerole of LOX in conferring resistance to downy mildew infectionof pearl millet is discussed. Key words: Lipoxygenase, pearl millet, downy mildew |
