| Nome |
# |
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Genetic relationship among local Vitis vinifera cultivars from Campania (Italy), file e1dbfeaa-6a90-4ac9-e053-1705fe0a1c61
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600
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The parentage of 'Sangiovese', the most important Italian wine grape, file e1dbfeaa-6a8b-4ac9-e053-1705fe0a1c61
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456
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|
Identification of causal genes of mQTLs associated to grape and wine flavor, file e1dbfeaa-69fd-4ac9-e053-1705fe0a1c61
|
311
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New candidate genes for the fine regulation of the colour of grapes, file e1dbfeaa-88af-4ac9-e053-1705fe0a1c61
|
300
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Drawing links from transcriptome to metabolites: the evolution of aroma in the ripening berry of Moscato bianco (Vitis vinifera L.), file e1dbfeab-2f05-4ac9-e053-1705fe0a1c61
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286
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VESPUCCI: the integrated gene expression database for grapevine, file e1dbfeab-9c4b-4ac9-e053-1705fe0a1c61
|
265
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|
Identification of causal mutations of metabolic QTLs associated to grape and wine flavor, file e1dbfeaa-6c37-4ac9-e053-1705fe0a1c61
|
264
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Regulation of flavonol content and composition in (Syrah×Pinot Noir) mature grapes: integration of transcriptional profiling and metabolic quantitative trait locus analyses, file e1dbfeaa-88b0-4ac9-e053-1705fe0a1c61
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248
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VESPUCCI: exploring patterns of gene expression in grapevine, file e1dbfeaa-df0d-4ac9-e053-1705fe0a1c61
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244
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Transcriptome analysis during berry development provides insights into co-regulated and altered gene expression between a seeded wine grape variety and its seedless somatic variant, file e1dbfeaa-c5a7-4ac9-e053-1705fe0a1c61
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241
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Induction of terpene biosynthesis in berries of microvine transformed with VvDXS1 alleles, file e1dbfeab-5339-4ac9-e053-1705fe0a1c61
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236
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Characterization of human breast tissue microbiota from core needle biopsies through the analysis of multi hypervariable 16S-rRNA gene regions, file e1dbfeab-9fa6-4ac9-e053-1705fe0a1c61
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227
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Candidate loci for phenology and fruitfulness contributing to the phenotypic variability observed in grapevine, file e1dbfeaa-83c5-4ac9-e053-1705fe0a1c61
|
214
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Berry and phenology-related traits in grapevine (Vitis vinifera L.): from quantitative trait loci to underlying genes, file e1dbfeab-5b8e-4ac9-e053-1705fe0a1c61
|
200
|
|
A candidate gene association study on muscat flavor in grapevine (Vitis vinifera L.), file e1dbfeab-5cba-4ac9-e053-1705fe0a1c61
|
183
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Association genetic studies in grape, file e1dbfeaa-5b45-4ac9-e053-1705fe0a1c61
|
163
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|
An optimized histological proceeding to study the female gametophyte development in grapevine, file e1dbfeab-dea1-4ac9-e053-1705fe0a1c61
|
156
|
|
Transcriptome analysis during berry development provides insights into co-regulated and altered gene expression between a seeded wine grape variety and its seedless somatic variant, file e1dbfeaa-7cb0-4ac9-e053-1705fe0a1c61
|
151
|
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Characterization of grapevine somatic variants differing in seed content, file e1dbfeaa-e7d8-4ac9-e053-1705fe0a1c61
|
129
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Exploring a large grape germplasm collection for genetic association studies, file e1dbfeaa-7f0a-4ac9-e053-1705fe0a1c61
|
93
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Transcriptional profiling and metabolic QTL analysis provide new insights into the fine regulation of anthocyanin and flavonol content in ripe berries, file e1dbfeaa-a289-4ac9-e053-1705fe0a1c61
|
89
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The metabolic engineering of VvDXS1 gene in grapevine for a functional evaluation of terpenoids metabolism during physiological fruit development or under stress conditions, file e1dbfeaa-e039-4ac9-e053-1705fe0a1c61
|
86
|
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Investigation of somatic variants associated with seed content in grapevine, file e1dbfeaa-fb2e-4ac9-e053-1705fe0a1c61
|
86
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Somatic variants for seed and fruit set in grapevine, file e1dbfeab-f22c-4ac9-e053-1705fe0a1c61
|
81
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Signatures of selection in the grapevine flowering gene network, file e1dbfeaa-7abf-4ac9-e053-1705fe0a1c61
|
71
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Dissecting the genetic and physiological mechanisms of grapevine resilience to heat stress, file e1dbfeac-0640-4ac9-e053-1705fe0a1c61
|
71
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|
Mechanisms and candidate genes for seed and fruit set in grapevine, file e1dbfeab-76e7-4ac9-e053-1705fe0a1c61
|
67
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|
Investigation of VvDXS function and its effects on muscat flavor levels, file e1dbfeaa-67b6-4ac9-e053-1705fe0a1c61
|
63
|
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From a major QTL for monoterpene content in grape berries to functional validation of positional candidate gene VvDXS, file e1dbfeaa-67cb-4ac9-e053-1705fe0a1c61
|
62
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Evidence of common genetic control of anthocyanin and flavonol content and composition in mature grapes, file e1dbfeaa-974d-4ac9-e053-1705fe0a1c61
|
60
|
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The Vitis-QTL browser: a dream coming true, file f5a06bf6-76ae-495b-83d8-1b153e31fcd5
|
59
|
|
A COMPASS for VESPUCCI: a FAIR way to explore the grapevine transcriptomic landscape, file e1dbfeac-1659-4ac9-e053-1705fe0a1c61
|
56
|
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Identification of causal mutations of metabolic QTLs associated to grape and wine flavor, file e1dbfeaa-6c35-4ac9-e053-1705fe0a1c61
|
38
|
|
Genetic and phenotypic characterization of grapevine natural variants for seed and fruit development, file e1dbfeab-9405-4ac9-e053-1705fe0a1c61
|
37
|
|
The fine genetic regulation of anthocyanin and flavonol content in grapes, file e1dbfeaa-79a4-4ac9-e053-1705fe0a1c61
|
34
|
|
Transcriptome analysis during berry development provides insights into co-regulated and altered gene expression between a seeded wine grape variety and its seedless somatic variant, file e1dbfeaa-7cb1-4ac9-e053-1705fe0a1c61
|
34
|
|
A COMPASS for VESPUCCI: a FAIR way to explore the grapevine transcriptomic landscape, file e1dbfeac-1d0e-4ac9-e053-1705fe0a1c61
|
34
|
|
Genetic investigation of seed formation during berry development using RNA-Seq reveals transcriptional changes in grapevine (Vitis vinifera L.), file e1dbfeaa-671b-4ac9-e053-1705fe0a1c61
|
33
|
|
Mechanisms and candidate genes for seed and fruit set in grapevine, file e1dbfeab-43bb-4ac9-e053-1705fe0a1c61
|
31
|
|
Mechanisms and candidate genes for seed and fruit set in grapevine, file e1dbfeab-43bc-4ac9-e053-1705fe0a1c61
|
31
|
|
Phenotyping methods to assess heat stress resilience in grapevine, file da1cd3d1-da06-4d72-838e-af65439c2599
|
29
|
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High-density consensus linkage map based on three mapping populations using the Vitis18K SNP chip for grapevine breeding, file e1dbfeac-0a63-4ac9-e053-1705fe0a1c61
|
25
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A high‑density integrated map for grapevine based on three mapping populations genotyped by the Vitis18K SNP chip, file 818ed11b-b07c-4011-b8bc-96e1a2d98708
|
20
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Genetic transformation of tobacco and grapevine for expression of 1-deoxy-D-xylulose-5-phosphate synthase 1 (dxs-1) gene, file e1dbfeab-5d97-4ac9-e053-1705fe0a1c61
|
19
|
|
An optimized paraffin-embedding method to study embryo sac development in grapevine, file e1dbfeab-bc12-4ac9-e053-1705fe0a1c61
|
19
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|
An optimized paraffin-embedding method to study embryo sac development in grapevine, file e1dbfeab-bc11-4ac9-e053-1705fe0a1c61
|
17
|
|
The construction of a high-density consensus map based on three mapping populations using the Vitis18K SNP chip and a reference genome sequence, file e1dbfeac-0dd8-4ac9-e053-1705fe0a1c61
|
14
|
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Black rot resistance of grapevine: from organ-specific QTL mapping to the sequencing of the donor towards candidate gene identification, file 5937c2ee-b46b-4176-bb78-2158ec227182
|
13
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|
FEMVitisDB: a FAIR data management system for data integration in grapevine, file ae2bf439-a684-4efc-91d3-f46f4bd707bd
|
12
|
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Dissecting the fine genetic regulation of anthocyanin and flavonol accumulation in mature grapes, file e1dbfeab-3640-4ac9-e053-1705fe0a1c61
|
10
|
|
Identification of causal mutations of metabolic QTLs associated to grape and wine flavor, file e1dbfeaa-6c36-4ac9-e053-1705fe0a1c61
|
9
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|
Rgb3: an organ-specific QTL for bunch resistance to black rot identified in the hybrid cultivar ‘Merzling’ Hands-on demo of the potential of Grapedia, file e6850f93-3f02-41a7-82f4-419669f72e74
|
8
|
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The construction of a high-density consensus map based on three mapping populations using the Vitis18K SNP chip and a reference genome sequence, file e1dbfeab-ffaa-4ac9-e053-1705fe0a1c61
|
7
|
|
A workflow for metabolomic analysis of heat-stressed leaves, file 8f514f58-3404-4649-8d24-cc78dd5844be
|
6
|
|
Genetic control of physiological responses to heat stress in grapevine, file f255b05a-0131-4222-baf3-2f071bea45e3
|
6
|
|
Highly dense linkage mapping and identification of a major QTL associated with BLACK ROT resistance in the grapevine cultivar ‘Merzling’, file b7bacd75-1230-47dc-85a7-7fdd923f403b
|
5
|
|
New insights into the genetic control of anthocyanin and flavonol content and composition in mature grapes, file e1dbfeaa-ca74-4ac9-e053-1705fe0a1c61
|
5
|
|
Mechanisms and candidate genes for seed and fruit set in grapevine, file e1dbfeab-726b-4ac9-e053-1705fe0a1c61
|
5
|
|
Towards Marker-Assisted Breeding for Black Rot Bunch Resistance: Identification of a Major QTL in the Grapevine Cultivar 'Merzling', file f06c14cc-a19f-43a4-94d9-b14943e83a38
|
5
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Highly dense linkage mapping and identification of a major QTL associated with BLACK ROT resistance in the grapevine cultivar ‘Merzling’, file 279b6866-d289-4486-9452-fd88f56e8f9d
|
4
|
|
Drawing links from transcriptome to metabolites: the evolution of Muscat aroma in the ripening berry, file e1dbfeaa-7bf0-4ac9-e053-1705fe0a1c61
|
4
|
|
Understanding the genetic determinism of phenological and quality traits in 'Corvina' grape variety for selection of improved genotypes, file e1dbfeac-14b0-4ac9-e053-1705fe0a1c61
|
3
|
|
MarcoPaolo: a gene expression compendium and web portal for Vitis vinifera, file e1dbfeaa-8559-4ac9-e053-1705fe0a1c61
|
2
|
|
Caratterizzazione di varianti apirene di cultivar di vite, file e1dbfeab-7482-4ac9-e053-1705fe0a1c61
|
2
|
|
QTLs related to berry acidity identified in a wine grapevine population grown in warm weather, file e1dbfeab-ac38-4ac9-e053-1705fe0a1c61
|
2
|
|
A multidisciplinary approach to identify the genetic determinants of flavonoid content in grapes, file e1dbfeaa-5bd5-4ac9-e053-1705fe0a1c61
|
1
|
|
Caratterizzazione di varianti apirene di cultivar di vite, file e1dbfeab-7483-4ac9-e053-1705fe0a1c61
|
1
|
| Totale |
6.343 |