Apple fruit texture QTLs: year and cold storage effects on sensory and instrumental traits

Sadok, Inès Ben; Tiecher, Aline; Gálvez-López, Didiana; Lahaye, Marc; Lasserre-Zuber, Pauline; Bruneau, Maryline; Hanteville, Sylvain; Robic, Roland; Cournol, Raphaël; Laurens, François

doi:10.1007/s11295-015-0947-x

Cited by 25 publications

(18 citation statements)

References 90 publications

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“…The sensory texture of 'Ben Davis' was the worst and it quickly changed to mealiness; its texture parameters were smaller than the other cultivars, and they decreased more rapidly. These results are in agreement with the results of previous studies [20] , that found that the sensory evaluation of fruit quality was closely related to the mechanical properties of the fruits.…”

Section: Textural Parameters and Sensory Evaluationsupporting

confidence: 93%

“…[9,[17][18][19] The texture of apples goes through obvious changes during storage and the ultrastructure of different apple cultivars varies significantly. [20,21] The texture of apples is not only related to the ultrastructure but also to the structural characteristics of the fruit. The parameters of a texture profile analysis (TPA) can reflect the structural characteristics of fruit.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of textural and ultrastructural characteristics of four apple cultivars with different textures during cold storage

Liu

Zhang

et al. 2019

International Journal of Food Properties

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Fruit texture is important for the production of quality apples. In this study, the aim was to investigate changes in texture and ultrastructure of apple cultivars during cold storage. The results indicated differences between cultivars and that quality parameters decreased over time. At the ripening stage, compared with 'Qinguan' and 'Ben Davis', 'Fuji' and 'Ruixue' exhibited larger pulp cells and smaller intercellular gaps. Ultrastructural changes in 'Fuji' and 'Ruixue' were small and cell walls remained intact, whereas the tissues of 'Qinguan' and 'Ben Davis' exhibited greater changes and the cell walls decreased. In coarse cultivars, the ultrastructural degradation of 'Qinguan' tissues was slower.

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Section: Textural Parameters and Sensory Evaluationsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Comparison of textural and ultrastructural characteristics of four apple cultivars with different textures during cold storage

Liu

Zhang

et al. 2019

International Journal of Food Properties

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“…A new strategy for detecting QTLs (e.g., metaQTL analysis) could also be beneficial. Several QTLs for fruit texture and storability traits have been identified on this chromosome (Ben Sadok et al, 2015;Bink et al, 2014;Chagné et al, 2014;Costa et al, 2010;Kenis et al, 2008;King et al, 2000;Kumar et al, 2013;Kunihisa et al, 2014;Longhi et al, 2013b). Our findings confirm the importance of chr 10 for elucidating the regulatory mechanisms of fruit texture and storability.…”

Section: Other Qtlssupporting

confidence: 82%

Identification of QTLs for Flesh Mealiness in Apple (<i>Malus</i> × <i>domestica</i> Borkh.)

Moriya¹,

Kunihisa²,

Okada³

et al. 2017

Hortic J

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During apple (Malus × domestica Borkh.) storage, a loss in fruit firmness can occur. This is frequently associated with mealiness, an undesirable trait. There have been studies, such as phenotypic analyses and transcriptomics, as well as others employing a transgenic approach, focusing on this trait. Certain genetic approaches, such as quantitative trait loci (QTL) approach, however, have not been attempted. In this study, to identify and characterize QTLs controlling flesh mealiness and to investigate their application in apple breeding, we performed classical QTL mapping based on a bi-parental population and a genome-wide association study (GWAS) of mealiness. Phenotypic data for mealiness allowed us to identify two QTLs in the bi-parental family located on linkage group 10. The GWAS discovered significant marker-trait associations on chromosomes 2, 9, and 10. The MdPG1 locus, located on chromosome 10, was identified as the locus with the strongest significance by both QTL mapping and GWAS, suggesting its primary contribution to flesh mealiness. Using a tri-allelic simple sequence repeat marker, Md-PG1 SSR 10kd, 10 kb downstream of the MdPG1 coding sequence, we divided apple accessions into six groups based on their genotypes. Among the six groups, the Md-PG1 SSR 10kd genotype "2/2" had the least mealy phenotype.

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“…Eight hybrids (H074, H097, I016, I062, I095, V034, V083 and W029) from the ‘HIVW’ segregate population resulting from the cross between X3259 and X3263 done in our laboratory at INRA Angers [ 112 , 113 ] were grown on 2 experimental plots (PH and P12) connected to the INRA laboratory at Bois l’Abbé domain (INRA, Angers). Fruits were collected from the middle and outside parts of the tree canopy at 60 and 110 days after flowering (DAF), and optimum maturity (Harvest, H).…”

Section: Methodsmentioning

confidence: 99%

Cell wall dynamics during apple development and storage involves hemicellulose modifications and related expressed genes

et al. 2016

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BackgroundFruit quality depends on a series of biochemical events that modify appearance, flavour and texture throughout fruit development and ripening. Cell wall polysaccharide remodelling largely contributes to the elaboration of fleshy fruit texture. Although several genes and enzymes involved in cell wall polysaccharide biosynthesis and modifications are known, their coordinated activity in these processes is yet to be discovered.ResultsCombined transcriptomic and biochemical analyses allowed the identification of putative enzymes and related annotated members of gene families involved in cell wall polysaccharide composition and structural changes during apple fruit growth and ripening. The early development genes were mainly related to cell wall biosynthesis and degradation with a particular target on hemicelluloses. Fine structural evolutions of galactoglucomannan were strongly correlated with mannan synthase, glucanase (GH9) and β-galactosidase gene expression. In contrast, fewer genes related to pectin metabolism and cell expansion (expansin genes) were observed in ripening fruit combined with expected changes in cell wall polysaccharide composition.ConclusionsHemicelluloses undergo major structural changes particularly during early fruit development. The high number of early expressed β-galactosidase genes questions their function on galactosylated structures during fruit development and storage. Their activity and cell wall substrate remains to be identified. Moreover, new insights into the potential role of peroxidases and transporters, along with cell wall metabolism open the way to further studies on concomitant mechanisms involved in cell wall assembly/disassembly during fruit development and storage.Electronic supplementary materialThe online version of this article (doi:10.1186/s12870-016-0887-0) contains supplementary material, which is available to authorized users.

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Apple fruit texture QTLs: year and cold storage effects on sensory and instrumental traits

Cited by 25 publications

References 90 publications

Comparison of textural and ultrastructural characteristics of four apple cultivars with different textures during cold storage

Comparison of textural and ultrastructural characteristics of four apple cultivars with different textures during cold storage

Identification of QTLs for Flesh Mealiness in Apple (<i>Malus</i> × <i>domestica</i> Borkh.)

Cell wall dynamics during apple development and storage involves hemicellulose modifications and related expressed genes

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