Microsatellite molecular marker-assisted gene pyramiding for resistance to Asian soybean rust (ASR)

Microsatellite molecular marker-assisted gene pyramiding for resistance to Asian soybean rust (ASR)

The present study aimed at pyramiding ASR-resistance genes through microsatellite (SSR) marker-assisted selection (MAS) and demonstrating the pyramiding steps. To obtain the first generation of gene pyramiding, crosses were made between introduced plants (PI’s), which have the genes Rpp1, Rpp2, Rpp3...

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Bibliographic Details
Published in:Acta scientiarum. Agronomy Vol. 40; no. 1; pp. 39619 - e39619
Main Authors: Viganó, Joselaine, Braccini, Alessandro Lucca, Schuster, Ivan, Menezes, Vanessa Maria Pereira Silva
Format: Journal Article
Language:English
Published: Maringa Editora da Universidade Estadual de Maringá - EDUEM 01-01-2018
Eduem (Editora da Universidade Estadual de Maringá)
Subjects:
AGRONOMY
Alleles
Breeding
durable resistance
Gene mapping
gene stacking
Genes
Genetic crosses
Hybrids
Introduced plants
Mapping
marker-assisted breeding
Marker-assisted selection
Markers
Microsatellites
Phakopsora pachyrhizi
Progeny
Rust fungi
Soybeans
pachyrhizi
Phakopsora pachyrhizi
durable resistance
resistência durável
gene stacking
melhoramento assistido por marcadores
marker-assisted breeding
empilhamento de genes
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Summary:The present study aimed at pyramiding ASR-resistance genes through microsatellite (SSR) marker-assisted selection (MAS) and demonstrating the pyramiding steps. To obtain the first generation of gene pyramiding, crosses were made between introduced plants (PI’s), which have the genes Rpp1, Rpp2, Rpp3, Rpp4, and Rpp5. F1 plants from the initial crosses were intercrossed to obtain plants with the four resistance genes (second pyramiding generation). Plants selected from this second generation were again intercrossed (third pyramiding generation) to increase the number of pyramided genes. For MAS, we used informative SSR markers in each cross. SSR markers were considered informative when the source resistance allele containing the target gene could be followed in the progeny, even in crosses between hybrids that both contained the same allele. Markers published in the ASR genetic mapping studies and in the consensus map of the soybean were used. We obtained plants containing from 2 to 4 genes pyramided per plant. These plants can be used as a source of multiple resistance in breeding programmes for obtaining soybean varieties with more durable resistance to ASR.
ISSN:1679-9275
1807-8621
1807-8621
DOI:10.4025/actasciagron.v40i1.39619