BackgroundMost agronomic plant traits result from complex molecular networks involving multiple genes and from environmental factors. One such trait is the enzymatic discoloration of fruit and tuber tissues initiated by mechanical impact (bruising). Tuber susceptibility to bruising is a complex trait of the cultivated potato (Solanum tuberosum) that is crucial for crop quality. As phenotypic evaluation of bruising is cumbersome, the application of diagnostic molecular markers would empower the selection of low bruising potato varieties. The genetic factors and molecular networks underlying enzymatic tissue discoloration are sparsely known. Hitherto there is no association study dealing with tuber bruising and diagnostic markers for enzymatic discoloration are rare.ResultsThe natural genetic diversity for bruising susceptibility was evaluated in elite middle European potato germplasm in order to elucidate its molecular basis. Association genetics using a candidate gene approach identified allelic variants in genes that function in tuber bruising and enzymatic browning. Two hundred and five tetraploid potato varieties and breeding clones related by descent were evaluated for two years in six environments for tuber bruising susceptibility, specific gravity, yield, shape and plant maturity. Correlations were found between different traits. In total 362 polymorphic DNA fragments, derived from 33 candidate genes and 29 SSR loci, were scored in the population and tested for association with the traits using a mixed model approach, which takes into account population structure and kinship. Twenty one highly significant (p < 0.001) and robust marker-trait associations were identified.ConclusionsThe observed trait correlations and associated marker fragments provide new insight in the molecular basis of bruising susceptibility and its natural variation. The markers diagnostic for increased or decreased bruising susceptibility will facilitate the combination of superior alleles in breeding programs. In addition, this study presents novel candidates that might control enzymatic tissue discoloration and tuber bruising. Their validation and characterization will increase the knowledge about the underlying biological processes.
Potato (Solanum tuberosum) presents a challenging organism for the genetic and molecular dissection of complex traits due to its tetraploidy and high heterozygosity. One such complex trait of high agronomic interest is the tuber susceptibility to bruising upon mechanical impact, which involves an enzymatic browning reaction. We have compared the tuber proteome of two groups of 10 potato cultivars differing in bruising susceptibility to (i) identify de novo proteins that contribute to bruising, based on differential protein expression, and (ii) validate these proteins by combining proteomics with association genetics. The comparison of 20 potato varieties yields insight into the high natural variation of tuber protein patterns due to genetic background. Seven genes or gene families were found that were both differentially expressed on the protein level between groups and for which DNA polymorphisms were associated with the investigated traits. A putative class III lipase was identified as a novel factor contributing to the natural variation of bruising. Additionally, tuber proteome changes triggered by mechanical impact, within and between groups, were monitored over time. Differentially expressed proteins were found, notably lipases, patatins, and annexins, showing remarkable time-dependent protein variation.
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