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A natural mutation-led truncation in one of the two aluminum-activated malate transporter-like genes at the Ma locus is associated with low fruit acidity in apple

Bai, Yang ; Dougherty, Laura ; Li, Mingjun ; Fazio, Gennaro ; Cheng, Lailiang ; Xu, Kenong

In: Molecular Genetics and Genomics, 2012, vol. 287, no. 8, p. 663-678

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    Titre
    • A natural mutation-led truncation in one of the two aluminum-activated malate transporter-like genes at the Ma locus is associated with low fruit acidity in apple
    Auteur
    • Bai, Yang. Department of Horticulture, New York State Agricultural Experiment Station, Cornell University, 14456, Geneva, NY, USA
    • Dougherty, Laura. Department of Horticulture, New York State Agricultural Experiment Station, Cornell University, 14456, Geneva, NY, USA
    • Li, Mingjun. Department of Horticulture, Cornell University, 14853, Ithaca, NY, USA
    • Fazio, Gennaro. Plant Genetic Resources Unit USDA ARS, New York State Agricultural Experiment Station, Cornell University, 14456, Geneva, NY, USA
    • Cheng, Lailiang. Department of Horticulture, Cornell University, 14853, Ithaca, NY, USA
    • Xu, Kenong. Department of Horticulture, New York State Agricultural Experiment Station, Cornell University, 14456, Geneva, NY, USA
    Type de document
    • Postprint
    Langue
    • Inglese
    Publié dans
    • Molecular Genetics and Genomics, 2012, vol. 287, no. 8, p. 663-678. Springer-Verlag
    Autre version électronique
    Identifiant OAI-PMH
    • oai:doc.rero.ch:315127
    Summary
    Acidity levels greatly affect the taste and flavor of fruit, and consequently its market value. In mature apple fruit, malic acid is the predominant organic acid. Several studies have confirmed that the major quantitative trait locus Ma largely controls the variation of fruit acidity levels. The Ma locus has recently been defined in a region of 150kb that contains 44 predicted genes on chromosome 16 in the Golden Delicious genome. In this study, we identified two aluminum-activated malate transporter-like genes, designated Ma1 and Ma2, as strong candidates of Ma by narrowing down the Ma locus to 65-82kb containing 12-19 predicted genes depending on the haplotypes. The Ma haplotypes were determined by sequencing two bacterial artificial chromosome clones from G.41 (an apple rootstock of genotype Mama) that cover the two distinct haplotypes at the Ma locus. Gene expression profiling in 18 apple germplasm accessions suggested that Ma1 is the major determinant at the Ma locus controlling fruit acidity as Ma1 is expressed at a much higher level than Ma2 and the Ma1 expression is significantly correlated with fruit titratable acidity (R 2=0.4543, P=0.0021). In the coding sequences of low acidity alleles of Ma1 and Ma2, sequence variations at the amino acid level between Golden Delicious and G.41 were not detected. But the alleles for high acidity vary considerably between the two genotypes. The low acidity allele of Ma1, Ma1-1455A, is mainly characterized by a mutation at base 1455 in the open reading frame. The mutation leads to a premature stop codon that truncates the carboxyl terminus of Ma1-1455A by 84 amino acids compared with Ma1-1455G. A survey of 29 apple germplasm accessions using marker CAPS1455 that targets the SNP1455 in Ma1 showed that the CAPS1455A allele was associated completely with high pH and highly with low titratable acidity, suggesting that the natural mutation-led truncation is most likely responsible for the abolished function of Ma for low pH or high acidity in apple