New stable QTLs for berry weight do not colocalize with QTLs for seed traits in cultivated grapevine (Vitis vinifera L.)

Doligez, Agnès; Bertrand, Yves; Farnos, Marc; Grolier, Michel; Romieu, Charles; Esnault, Florence; Dias, Sonia; Berger, Gilles; François, Pierre; Pons, Thierry; Ortigosa, Patrick; Roux, Catherine; Houel, Cléa; Laucou, Valérie; Baciliéri, Roberto; Péros, Jean Pierre; This, Patrice

doi:10.1186/1471-2229-13-217

Cited by 92 publications

(125 citation statements)

References 75 publications

(101 reference statements)

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“…It is generally accepted that berry dimensions are directly affected by seed number at a intragenotypic level (Walker et al 2005), but it is not that obvious at an intergenotypic level Tello et al 2015). In this regard, Doligez et al (2013) have indicated the lack of colocalization between QTLs for berry and seed traits, suggesting that the genetic control of both traits may be partly dissociated.…”

Section: Resultsmentioning

confidence: 99%

A multivariate approach for the ampelographic discrimination of grapevine (Vitis vinifera) cultivars: application to local Syrian genetic resources

Khalil

Tello

Hamed

et al. 2017

Genet Resour Crop Evol

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Due to its unique historical and geographical emplacement, grapes have been cultivated in the Syrian Arab Republic for more than 5000 years, so the characterization of its local genetic resources is paramount for understanding grapevine natural diversity. In this work, different local Syrian table grape cultivars were characterized for 42 traits related to plant phenology, shoot, leaf, cluster, berry and juice composition. A series of multivariate analyses were sequentially performed, and five highly-discriminant traits were identified as the most discriminant ones (shoot internode length, berry weight, berry elongation, 100-seed weight and juice titratable acidity). The clustering of the cultivars according to these five traits revealed that some local Syrian cultivars share similitude with some worldwide grown cultivars, suggesting their potential as new genetic resources for the development of new high-quality table grape varieties, and indicating the needing of specific preservation programs aimed to avoid the loss of endangered genetic local resources. Besides, the statistical multivariate pipeline followed in this work is proposed as an efficient one for the selection of ampelographic traits for the discrimination of grapevine cultivars.

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Section: Resultsmentioning

confidence: 99%

A multivariate approach for the ampelographic discrimination of grapevine (Vitis vinifera) cultivars: application to local Syrian genetic resources

Khalil

Tello

Hamed

et al. 2017

Genet Resour Crop Evol

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“…Microsatellite and SNP markers have become in the last years the markers of choice for genetic analyses in grapevine, including genetic mapping and QTL identification (Huang et al 2012;Doligez et al 2013;Battilana et al 2013;Barba et al 2014), linkage disequilibrium and association analyses (Emanuelli et al 2010;Barnaud et al 2010;Cardoso et al 2012;Vargas et al 2013), and varietal identification (Myles et al 2010;Cabezas et al 2011;Laucou et al 2011;Migliaro et al 2012). As in many other woody plant species, genetic mapping in grapevine has been carried out using mainly the double pseudo test-cross strategy (Grattapaglia et al 1995), which is based on the study of allelic segregation of markers found in heterozygosis in one or both progenitors of an F 1 progeny.…”

Section: Applications Of the Developed Multiplex Pcrsmentioning

confidence: 99%

“…The availability of the grapevine genome sequence combined with the advent of cheaper and high throughput single nucleotide polymorphism (SNP) genotyping strategies (Gupta et al 2008;Davey et al 2011) were expected to shift the tools of genetic studies in grapevine. However, microsatellites are still the predominant markers contributing to the current knowledge of genetic determinism of the major grapevine traits (Mejía et al 2011;Huang et al 2012;Duchêne et al 2012;Karaagac et al 2012;Doligez et al 2013;Battilana et al 2013;Grzeskowiak et al 2013;Ban et al 2014;Correa et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Whole-genome genotyping of grape using a panel of microsatellite multiplex PCRs

Zarouri¹,

Vargas²,

Gaforio³

et al. 2015

Tree Genetics & Genomes

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The use of microsatellite markers in large-scale genetic studies is limited by its low throughput and high cost and labor requirements. Here, we provide a panel of 45 multiplex PCRs for fast and cost-efficient genome-wide fluorescencebased microsatellite analysis in grapevine. The developed multiplex PCRs panel (with up to 15-plex) enables the scoring of 270 loci covering all the grapevine genome (9 to 20 loci/chromosome) using only 45 PCRs and sequencer runs. The 45 multiplex PCRs were validated using a diverse grapevine collection of 207 accessions, selected to represent most of the cultivated Vitis vinifera genetic diversity. Particular attention was paid to quality control throughout the whole process (assay replication, null allele detection, ease of scoring). Genetic diversity summary statistics and features of electrophoretic profiles for each studied marker are provided, as are the genotypes of 25 common cultivars that could be used as references in other studies.

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“…Comparing polymorphic regions between seedless (AR and TS) vs. seeded (It and RG) and big berry vs. small berry (TS) varieties, we were able to identify polymorphisms in genes involved in hormone responses and metabolism in berry growth as putative candidate genes. For example the gene coding for the Auxin Response Factor 5 (ARF5) showed a higher CN in the TS genome and was recently mapped to a quantitative trait locus associated to berry weight and traits [22]. Likewise we found polymorphisms specific to the seedless varieties with respect to the seeded ones in genes involved in transport overview pathways, such as PIP2B, which codes a member of the aquaporin gene family.…”

Section: Polymorphic Genesmentioning

confidence: 83%

Genomics technologies to study structural variations in the grapevine genome

Cardone¹,

Bergamini²,

D’Addabbo

et al. 2016

BIO Web Conf.

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Abstract. Grapevine is one of the most important crop plants in the world. Recently there was great expansion of genomics resources about grapevine genome, thus providing increasing efforts for molecular breeding. Current cultivars display a great level of inter-specific differentiation that needs to be investigated to reach a comprehensive understanding of the genetic basis of phenotypic differences, and to find responsible genes selected by cross breeding programs. While there have been significant advances in resolving the pattern and nature of single nucleotide polymorphisms (SNPs) on plant genomes, few data are available on copy number variation (CNV). Furthermore association between structural variations and phenotypes has been described in only a few cases. We combined high throughput biotechnologies and bioinformatics tools, to reveal the first inter-varietal atlas of structural variation (SV) for the grapevine genome. We sequenced and compared four table grape cultivars with the Pinot noir inbred line PN40024 genome as the reference. We detected roughly 8% of the grapevine genome affected by genomic variations. Taken into account phenotypic differences existing among the studied varieties we performed comparison of SVs among them and the reference and next we performed an in-depth analysis of gene content of polymorphic regions. This allowed us to identify genes showing differences in copy number as putative functional candidates for important traits in grapevine cultivation.

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New stable QTLs for berry weight do not colocalize with QTLs for seed traits in cultivated grapevine (Vitis vinifera L.)

Cited by 92 publications

References 75 publications

A multivariate approach for the ampelographic discrimination of grapevine (Vitis vinifera) cultivars: application to local Syrian genetic resources

A multivariate approach for the ampelographic discrimination of grapevine (Vitis vinifera) cultivars: application to local Syrian genetic resources

Whole-genome genotyping of grape using a panel of microsatellite multiplex PCRs

Genomics technologies to study structural variations in the grapevine genome

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