Exploiting sorghum genetic diversity for enhanced aluminum tolerance: Allele mining based on the Alt SB locus
Abstract Root damage due to aluminum (Al) toxicity restricts crop production on acidic soils, which are extensive in the tropics. The sorghum root Al-activated citrate transporter, SbMATE, underlies the Al tolerance locus, Alt SB , and increases grain yield under Al toxicity. Here, Alt SB loci assoc...
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Autores principales: | , , , , , , |
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Formato: | article |
Lenguaje: | EN |
Publicado: |
Nature Portfolio
2018
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Materias: | |
Acceso en línea: | https://doaj.org/article/cf15140f4cef42f3b2dff8f39945f6a3 |
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Sumario: | Abstract Root damage due to aluminum (Al) toxicity restricts crop production on acidic soils, which are extensive in the tropics. The sorghum root Al-activated citrate transporter, SbMATE, underlies the Al tolerance locus, Alt SB , and increases grain yield under Al toxicity. Here, Alt SB loci associated with Al tolerance were converted into Amplification Refractory Mutation System (ARMS) markers, which are cost effective and easy to use. A DNA pooling strategy allowed us to identify accessions harboring rare favorable Alt SB alleles in three germplasm sets while greatly reducing genotyping needs. Population structure analysis revealed that favorable Alt SB alleles are predominantly found in subpopulations enriched with guinea sorghums, supporting a possible Western African origin of Alt SB . The efficiency of allele mining in recovering Al tolerance accessions was the highest in the largest and highly diverse germplasm set, with a 10-fold reduction in the number of accessions that would need to be phenotyped in the absence of marker information. Finally, Al tolerant accessions were found to rely on SbMATE to exclude Al3+ from sensitive sites in the root apex. This study emphasizes gene-specific markers as important tools for efficiently mining useful rare alleles in diverse germplasm, bridging genetic resource conservation efforts and pre-breeding for Al tolerance. |
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