Pernet Alix, Hoisington David, Dintinger Jacques, Jewell David, Jiang Changjiang, Khairallah Mireille, Letourmy Philippe, Marchand Jean-Leu, Glaszmann Jean-Christophe, Gonzalez De Léon Diego. 1999. Genetic mapping of maize streak virus resistance from the Mascarene source : II. Resistance in line CIRAD390 and stability across germplasm. Theoretical and Applied Genetics, 99 : 540-553.
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Résumé : The streak disease has a major effect on maize in sub-Saharan Africa. Various genetic factors for resistance to the virus have been identified and mapped in several populations; these factors derive from different sources of resistance. We have focused on the Réunion island source and have recently identified several factors in the D211 line. A second very resistant line, ClRAD390, was crossed to the same susceptible parent, B73. The linkage map comprised 124 RFLP markers, of which 79 were common with the D211xB73 map. A row-column design was used to evaluate the resistance to maize streak virus (MSV) of 191 F2:3 families under artificial infestation at two locations: Harare (Zimbabwe) and in Réunion island. Weekly ratings of resistance were taken and disease incidence and severity calculated. QTL analyses were conducted for each scoring date and for the integration over time of the disease scores, of incidence, and of severity. Heritability estimates (71-98%) were as high as for the D211xB73 population. Eight QTLs were detected on chromosomes 1, 2, 3, 5 (two QTLs), 6, 8, and 10. The chr1-QTL explained the highest proportion of phenotypic variation, about 45%. The QTLs on chromosomes 1, 2, and 10 were located in the same chromosomal bin as QTLs for MSV resistance in the D211xB73 population. In a simultaneous fit, QTLs explained together 43-67% of the phenotypic variation. The QTLs on chromosomes 3, 5, and 6 appeared to be specific for one or the other component of the resistance. For the chr3-QTL, resistance was contributed by the susceptible parent. There were significant QTL x environment interactions for some of the variables studied, but QTLs were stable in the two environments. They also appeared to be stable over time. Global gene action ranged from partial dominance to overdominance, except for disease severity. Some additional putative QTLs were also detected. The major QTL on chromosome 1 seemed to be common to the other sources of resistance, namely Tzi4, a tolerant line from IITA, and CML202 from ClMMYT. However, the distribution of the other QTLs within the genome revealed differences in Réunion germplasm and across these other resistance sources. This diversity is of great importance when considering the durability of the resistance.
Classification Agris : F30 - Génétique et amélioration des plantes
H20 - Maladies des plantes
Auteurs et affiliations
- Pernet Alix
- Hoisington David, CIMMYT (MEX)
- Dintinger Jacques, CIRAD-CA-CALIM (REU)
- Jewell David, CIMMYT (ZWE)
- Jiang Changjiang, CIMMYT (MEX)
- Khairallah Mireille, CIMMYT (MEX)
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Letourmy Philippe, CIRAD-CA-DIR (FRA)
ORCID: 0000-0003-1040-0860
- Marchand Jean-Leu, CIRAD-CA-CALIM (FRA)
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Glaszmann Jean-Christophe, CIRAD-AMIS-BIOTROP (FRA) ORCID: 0000-0001-9918-875X
- Gonzalez De Léon Diego, CIMMYT (MEX)
Autres liens de la publication
Source : Cirad - Agritrop (https://agritrop.cirad.fr/479194/)
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