Principles of Plant Genetics and Breeding. George Acquaah

Principles of Plant Genetics and Breeding - George Acquaah


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of resistance identified in several wild species was characterized. Monogenic resistance to O. neolycopersici was found in S. peruvianum LA2172, S. habrochaites G1.1560 and G1.1290, and polygenic resistance in S. neorikii G.16101. Rick, C.M. (1988). Further, by screening these F2 plants with molecular markers, such as RAPD, AFLP, and CAPS, the resistance in these species was mapped onto specific chromosomes. The resistance loci in S. peruvianum LA2172 and S. habrochaites G1.1560 and G1.1290, named Ol‐4, Ol‐1, and Ol‐3, respectively, are all located on tomato chromosome 6. The Ol‐4 locus is on the short arm, while Ol‐1 and Ol‐3 are on the long arm and closely linked if not allelic (Figure B5.2). In addition to these monogenic Ol‐genes, three quantitative trait loci (QTLs) were identified governing the resistance in S. neorickii G1.1601. The Ol‐qtl1 interval overlaps with Ol‐1 and Ol‐3, while the other two linked Ol‐qtls are located on chromosome 12 in the vicinity of the Lv locus that confers resistance to another powdery mildew species, Leveillula taurica. Markers with close linkage to these loci were generated and can be applied in marker‐assisted selection (MAS) in breeding programs.

Schematic illustration of the chromosome locations of tomato loci for resistance to tomato powdery mildew caused by Oidium neolycopersici. On the left, genetic distance in cM is shown. On the right, map positions of markers and resistance loci are shown on tomato chromosome 6 and 12, respectively.

       Generation of near isogenic lines

Schematic illustration of cross-pollinating scheme of generation of near-isogenic lines harboring dominant resistance genes to tomato powdery mildew. During the backcrosses, selection of resistant plants can be performed via (1) disease test and/or (2) marker-assisted selection. Schematic illustration of marker-assisted selection. On the left, a genetic linkage map of tomato chromosome 6 showing that the Ol-1 and Ol-3 genes, conferring resistance to tomato powdery mildew, are located at the same locus and are flanked by Markers 3 and 4. On the right, electrophoretic patterns of PCR markers showing marker genotypes of 6 plants; the upper panel for Marker 3 and the lower panel for Marker 4. Plant 1–4 are either BC3 plants and BC3S1 plants. Plant 5 and 6 are parental plants that are susceptible and resistant to tomato powdery mildew, respectively.

      After several backcrossing generations, homozygous BCnS1 resistant plants of these crosses were selected (Figure B5.3). Since we have facilities for genome‐wide analysis, we genotyped all selected plants with AFLP markers to compare their genetic background with the recurrent parent MM. BCnS1 resistant plants that were genetically most similar to MM were maintained as NILs.

       Releasing NILs to companies for production of resistant cultivars

      These NILs harboring dominant Ol genes are valuable advanced breeding lines and have been used by seed companies for breeding tomato cultivars with resistance to tomato powdery mildew, which are now available on the market. The NILs for the Ol‐qtls are


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