DSpace Repository

Generation and Characterization of Striga-Resistant Maize and Sorghum Varieties Using Azide-Based Mutagenesis

Show simple item record

dc.contributor.author Othira, J. O.
dc.contributor.author Kiruki, S.
dc.date.issued 2013-02-01
dc.date.accessioned 2013-08-29T14:34:45Z
dc.date.available 2013-08-29T14:34:45Z
dc.identifier.uri http://hdl.handle.net/123456789/90
dc.description.abstract Production of cereal crops is threatened by Striga hermonthica (Del. Benth) weed known to infest an estimated 46000 hectares of land in the traditional food producing areas in Western and Coastal Kenya. The grain yields of maize and sorghum, the major calorie-providing food crops grown largely by the small scale farmers, are reduced by 30-60% due to Striga infestation. Striga is a parasitic weed that attaches to the roots of maize, sorghum and other cereals robbing them of water and nutrients. The research involved generating maize and sorghum mutants by Azide-based mutagenesis, screening for Striga resistance by seed germination bioassay and assessing for DNA polymorphism using Randomly Amplified Polymorphic DNA technique. Present investigation has demonstrated the high degree of Striga resistance of a few maize and sorghum genotypes [maize: K9911, K0611 and sorghum: J0621] developed through Azide-induced mutagenesis. These mutants were non-stimulating due to absence of chemical stimulants or their occurrence at very low concentrations. Some resistant varieties stimulated Striga germination to a very low degree, indicating that host resistance could result from other physiological factors. DNA polymorphism was manifested by the presence of distinct bands which varied depending on whether the variety or the mutant was resistant or susceptible. The Striga susceptible maize varieties produced unique bands at 5.0kb using primer OPU-18 and, 6.0kb and 8.0kb using primer OPW-04, which were missing in resistant varieties. Similarly, Striga susceptible sorghum varieties produced unique band at 6.0kb using primer AB4-13 which was missing in resistant varieties. But using primer OPE-01, the resistant sorghum variety had an extra band at 7.0kb. The extra bands observed could be conferring genes for Striga stimulant production. Since these bands were absent in the resistant varieties, it might have been altered or silenced during mutation hence their inability to produce Striga germination stimulants. Finally, Striga resistant varieties developed can be used as resistant gene sources in maize and sorghum improvement. Their agronomic qualities should also be tested before propagation by national breeding programmes for use in Striga-infested fields. en_US
dc.language.iso en en_US
dc.publisher Egerton University en_US
dc.subject Striga hermonthica, en_US
dc.subject Resistant mutants, en_US
dc.subject DNA polymorphism, en_US
dc.subject RAPD-PCR. en_US
dc.title Generation and Characterization of Striga-Resistant Maize and Sorghum Varieties Using Azide-Based Mutagenesis en_US
dc.type Article en_US


Files in this item

This item appears in the following Collection(s)

Show simple item record

Search DSpace


Browse

My Account