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Genetic basis of maize resistance to multiple insect pests: integrated genome-wide comparative mapping and candidate gene prioritization

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dc.contributor.author Badji, A.
dc.contributor.author Kwemoi, D. B.
dc.contributor.author Machida, L.
dc.contributor.author Okii, D.
dc.contributor.author Mwila, N.
dc.contributor.author Agbahoungba, S.
dc.contributor.author Kumi, F .
dc.contributor.author Ibanda, A.
dc.contributor.author Bararyenya, A.
dc.contributor.author Solemanegy, M.
dc.contributor.author Odong, T.
dc.contributor.author Wasswa, P.
dc.contributor.author Otim, M.
dc.contributor.author Asea, G.
dc.contributor.author Ochwo-Ssemakula, M
dc.contributor.author Talwana, H.
dc.contributor.author Kyamanywa, S
dc.contributor.author Rubaihayo, P
dc.date.accessioned 2021-02-22T14:08:23Z
dc.date.available 2021-02-22T14:08:23Z
dc.date.issued 2020-06-24
dc.identifier.issn 23105496
dc.identifier.uri http://hdl.handle.net/123456789/4719
dc.description 27p:, ill. en_US
dc.description.abstract Several species of herbivores feed on maize in field and storage setups, making the development of multiple insect resistance a critical breeding target. In this study, an association mapping panel of 341 tropical maize lines was evaluated in three field environments for resistance to fall armyworm (FAW), whilst bulked grains were subjected to a maize weevil (MW) bioassay and genotyped with Diversity Array Technology’s single nucleotide polymorphisms (SNPs) markers. A multi-locus genome-wide association study (GWAS) revealed 62 quantitative trait nucleotides (QTNs) associated with FAW and MW resistance traits on all 10 maize chromosomes, of which, 47 and 31 were discovered at stringent Bonferroni genome-wide significance levels of 0.05 and 0.01, respectively, and located within or close to multiple insect resistance genomic regions (MIRGRs) concerning FAW, SB, and MW. Sixteen QTNs influenced multiple traits, of which, six were associated with resistance to both FAW and MW, suggesting a pleiotropic genetic control. Functional prioritization of candidate genes (CGs) located within 10–30 kb of the QTNs revealed 64 putative GWAS-based CGs (GbCGs) showing evidence of involvement in plant defense mechanisms. Only one GbCG was associated with each of the five of the six combined resistance QTNs, thus reinforcing the pleiotropy hypothesis. In addition, through in silico co-functional network inferences, an additional 107 network-based CGs (NbCGs), biologically connected to the 64 GbCGs, and differentially expressed under biotic or abiotic stress, were revealed within MIRGRs. The provided multiple insect resistance physical map should contribute to the development of combined insect resistance in maize en_US
dc.language.iso en en_US
dc.publisher University of Cape Coast en_US
dc.subject Combined insect resistance en_US
dc.subject QTNs en_US
dc.subject Functional prioritization en_US
dc.subject Fall armyworm en_US
dc.subject Maize weevil en_US
dc.subject Stem borers en_US
dc.title Genetic basis of maize resistance to multiple insect pests: integrated genome-wide comparative mapping and candidate gene prioritization en_US
dc.type Article en_US


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