| Nome |
# |
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Generation of mildew-resistant grapevine clones via genome editing, file e1dbfeab-764e-4ac9-e053-1705fe0a1c61
|
2.816
|
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LD estimation, analyses of diversity and domestication in apple, file e1dbfeaa-5bc3-4ac9-e053-1705fe0a1c61
|
2.372
|
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DNA-Free genetically edited grapevine and apple protoplast using CRISPR/Cas9 ribonucleoproteins, file e1dbfeaa-f673-4ac9-e053-1705fe0a1c61
|
965
|
|
Confirmation of intergeneric hybrids between apple and pear, file e1dbfeab-b0ed-4ac9-e053-1705fe0a1c61
|
941
|
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Plant regeneration and transformation in the Rosaceae, file e1dbfeaa-5bb4-4ac9-e053-1705fe0a1c61
|
858
|
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The Malus fusca fire blight resistance locus: validation of Mfu10 and genetic resolution of the region containing the locus, file e1dbfeaa-fc1a-4ac9-e053-1705fe0a1c61
|
519
|
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Edited grapevine knocked-out for VvEPFL9-1 showed reduced stomatal density, file e1dbfeab-fec3-4ac9-e053-1705fe0a1c61
|
436
|
|
Frequency of a natural truncated allele of MdMLO19 in the germplasm of Malus domestica, file e1dbfeaa-f2e9-4ac9-e053-1705fe0a1c61
|
414
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Genome edited and T-DNA-free apple plants resistant to fire blight, file e1dbfeab-70ae-4ac9-e053-1705fe0a1c61
|
382
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New genomic techniques in citrus, step-by-step solutions for more efficient and successful procedures, file 51954faa-93c8-48e5-8adb-c03a921c52af
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375
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Importance of bacterial strain-specificity to improve fire blight resistance and management in apple, file e1dbfeab-70b0-4ac9-e053-1705fe0a1c61
|
298
|
|
Generation of mildew-resistant grapevine clones via genome editing, file e1dbfeab-8131-4ac9-e053-1705fe0a1c61
|
295
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|
Chemical diversity of microbial volatiles and their potential for plant growth and productivity, file e1dbfeaa-9237-4ac9-e053-1705fe0a1c61
|
283
|
|
The draft genome sequence of European pear (Pyrus communis L. ‘Bartlett’), file e1dbfeaa-7cc9-4ac9-e053-1705fe0a1c61
|
280
|
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Leveraging system biology and new breeding technologies for water stress tolerance in grapevines, file b0bf6103-75cd-4d56-b7ce-775a58bbc3eb
|
273
|
|
Breeding next generation tree fruits: technical and legal challenges, file e1dbfeab-44e6-4ac9-e053-1705fe0a1c61
|
271
|
|
Identification of Pyrus single nucleotide polymorphisms (SNPs) and evaluation for genetic mapping in European pear and interspecific Pyrus hybrids, file e1dbfeaa-793a-4ac9-e053-1705fe0a1c61
|
266
|
|
Putative resistance gene markers associated with quantitative trait loci for fire blight resistance in Malus 'Robusta 5' accessions, file e1dbfeaa-6777-4ac9-e053-1705fe0a1c61
|
264
|
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Breeding strategies to develop new grape rootstock candidate, file e1dbfeab-917d-4ac9-e053-1705fe0a1c61
|
262
|
|
Species-specific duplications driving the recent expansion of NBS-LRR genes in five Rosaceae species, file e1dbfeaa-841e-4ac9-e053-1705fe0a1c61
|
257
|
|
Knockdown of MLO genes reduces susceptibility to powdery mildew in grapevine, file e1dbfeaa-e005-4ac9-e053-1705fe0a1c61
|
248
|
|
Discovery of a dihydrochalcone 3-hydroxylase (DHC3H) from wild malus species that produces sieboldin in vivo by de novo transcriptome assembly and functional analysis, file faca2515-a1dc-4f84-8bb5-e9488387eee1
|
244
|
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Evidence of a major QTL for fire blight resistance in the apple wild species Malus fusca, file e1dbfeaa-795f-4ac9-e053-1705fe0a1c61
|
235
|
|
Induction of terpene biosynthesis in berries of microvine transformed with VvDXS1 alleles, file e1dbfeab-5339-4ac9-e053-1705fe0a1c61
|
235
|
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Generation of non-transgenic mildew-resistant grapevine clones via gene-editing: potentials and hurdles, file e1dbfeab-fec1-4ac9-e053-1705fe0a1c61
|
234
|
|
Genome mapping of postzygotic hybrid necrosis in an interspecific pear population, file e1dbfeaa-ee50-4ac9-e053-1705fe0a1c61
|
218
|
|
Towards map-based cloning of FB_Mfu10: identification of a receptor-like kinase candidate gene underlying the Malus fusca fire blight resistance locus on linkage group 10, file e1dbfeab-951f-4ac9-e053-1705fe0a1c61
|
212
|
|
Characterization of the MLO gene family in Rosaceae and gene expression analysis in Malus domestica, file e1dbfeaa-8343-4ac9-e053-1705fe0a1c61
|
211
|
|
Nonsense mutation inside anthocyanidin synthase gene controls pigmentation in yellow raspberry (Rubus idaeus L.), file e1dbfeaa-fda5-4ac9-e053-1705fe0a1c61
|
208
|
|
Calcium imaging perspectives in plants, file e1dbfeaa-8347-4ac9-e053-1705fe0a1c61
|
204
|
|
Characterization of Resistance Gene Analogues (RGAs) in apple (Malus x domestica Borkh.) and their evolutionary history of the Rosaceae family, file e1dbfeaa-7d1f-4ac9-e053-1705fe0a1c61
|
201
|
|
Adjusting the scent ratio: using genetically modified Vitis vinifera plants to manipulate European grapevine moth behaviour, file e1dbfeab-5640-4ac9-e053-1705fe0a1c61
|
201
|
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Attesa una decisione della Commissione europea sui prodotti delle nuove tecniche di miglioramento genetico, file e1dbfeab-683c-4ac9-e053-1705fe0a1c61
|
176
|
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The knock-down of the expression of MdMLO19 reduces susceptibility to powdery mildew (Podosphaera leucotricha) in apple (Malus domestica), file e1dbfeaa-f17c-4ac9-e053-1705fe0a1c61
|
166
|
|
Sviluppo di metodiche NGS per la caratterizzazione di OGM non autorizzati: primi risultati, file e1dbfeab-ce55-4ac9-e053-1705fe0a1c61
|
163
|
|
Malus fusca fire blight resistance: identification of a candidate gene on chromosome 10 and a novel minor locus on chromosome 16, file e1dbfeab-ac03-4ac9-e053-1705fe0a1c61
|
158
|
|
Strategies to produce T-DNA free CRISPRed fruit trees via Agrobacterium tumefaciens stable gene transfer, file e1dbfeab-dfe9-4ac9-e053-1705fe0a1c61
|
158
|
|
Reduced fire blight susceptibility in apple cultivars using a high-efficiency CRISPR/Cas9-FLP/FRT-based gene editing system, file e1dbfeab-cd4b-4ac9-e053-1705fe0a1c61
|
157
|
|
Role of Ca2+ and CDPKs in resistant and susceptible cultivars of apple (Malus x domestica) in response to the pathogen Erwinia amylovora and mechanical wounding, file e1dbfeaa-792a-4ac9-e053-1705fe0a1c61
|
154
|
|
Characterization of the MLO gene family in Rosaceae and gene expression analysis in Malus domestica, file e1dbfeaa-9fbe-4ac9-e053-1705fe0a1c61
|
154
|
|
Functional study of lipoxygenase-mediated resistance against Erysiphe necator in grapevine, file e1dbfeac-0b64-4ac9-e053-1705fe0a1c61
|
150
|
|
In-silico identification and phylogenetic analysis of auxin efflux carrier gene family in Setaria italica L., file e1dbfeaa-7cce-4ac9-e053-1705fe0a1c61
|
148
|
|
Identification of Pyrus single nucleotide polymorphisms (SNPs) and evaluation for genetic mapping in european pear and interspecific Pyrus hybrids, file e1dbfeaa-66bc-4ac9-e053-1705fe0a1c61
|
145
|
|
Integrated approach for the molecular characterization of edited plants obtained via Agrobacterium tumefaciens-mediated gene transfer, file e1dbfeac-0e18-4ac9-e053-1705fe0a1c61
|
119
|
|
Impiego della tecnologia CRISPR/Cas9-FLP/FRT per rendere cultivar di melo meno suscettibili al colpo di fuoco batterico, file e1dbfeab-d90b-4ac9-e053-1705fe0a1c61
|
115
|
|
Vergleichende genetische Kartierung
der Feuerbrandresistenz bei Malus sp. = Comparative genetic mapping of resistance to fire blight in Malus sp., file e1dbfeaa-803b-4ac9-e053-1705fe0a1c61
|
112
|
|
Gene editing based modulation of stomatal activity and drought resistance in grapevine, file e1dbfeab-b5a5-4ac9-e053-1705fe0a1c61
|
111
|
|
VvEPFL9-1 Knock-Out via CRISPR/Cas9 reduces stomatal density in grapevine, file e1dbfeac-1d32-4ac9-e053-1705fe0a1c61
|
103
|
|
Development of molecular markers for fire blight resistance (Erwinia amylovora) in Malus (apple) by a candidate gene approach, file e1dbfeaa-6131-4ac9-e053-1705fe0a1c61
|
94
|
|
Cisgenic grapevine: an ever closer goal, file e1dbfeaa-e193-4ac9-e053-1705fe0a1c61
|
94
|
|
Application of Genome editing for improving disease resistance in apple: case of DIPM for resistance to fire blight, file e1dbfeab-b5a3-4ac9-e053-1705fe0a1c61
|
92
|
|
Candidate Gene Mapping Identifies Genomic Variations in the Fire Blight Susceptibility genes HIPM and DIPM across the Malus Germplasm, file e1dbfeab-d737-4ac9-e053-1705fe0a1c61
|
92
|
|
RNAi mutants for determination of candidate gene function in resistance of apple to Erwinia amylovora (Fire blight), file e1dbfeaa-f78e-4ac9-e053-1705fe0a1c61
|
90
|
|
Metabolic and transcriptional profiling of transgenic microvine plants and fruit overexpressing VvDXS1, file e1dbfeaa-a4d5-4ac9-e053-1705fe0a1c61
|
86
|
|
Cisgenesi e genome editing, file e1dbfeaa-f457-4ac9-e053-1705fe0a1c61
|
85
|
|
Transcriptional regulation of MdmiR285N microRNA in apple (Malus x domestica) and the heterologous plant system Arabidopsis thaliana, file e1dbfeab-dc07-4ac9-e053-1705fe0a1c61
|
85
|
|
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
|
84
|
|
MLO genes silencing reduces susceptibility to powdery mildew in grapevine, file e1dbfeaa-e194-4ac9-e053-1705fe0a1c61
|
83
|
|
Control of the grapevine moth Lobesia botrana through the genetic engineering manipulation of the host plant's volatiles, file e1dbfeab-764d-4ac9-e053-1705fe0a1c61
|
83
|
|
Phylogenetic reconstruction of Family 1 UDP-glycosyltransferases: towards a better functional prediction and potential applications, file e1dbfeaa-69d1-4ac9-e053-1705fe0a1c61
|
79
|
|
Functional characterization of resistance gene Rvi 12 (Vb) against apple scab, file e1dbfeab-da53-4ac9-e053-1705fe0a1c61
|
79
|
|
Development of 4 conceptually different NPBTs in C. intybus, file e1dbfeab-dab3-4ac9-e053-1705fe0a1c61
|
78
|
|
“Clean” genome editing in grapevine (Vitis ssp.), file e1dbfeab-7957-4ac9-e053-1705fe0a1c61
|
76
|
|
Regeneration of non-chimeric plants from DNA-free edited grapevine protoplasts, file b7c75d9e-9d86-4350-867f-7e782687b74b
|
74
|
|
HrpW interacts with NADH dehydrogenase of apple, file e1dbfeaa-7960-4ac9-e053-1705fe0a1c61
|
73
|
|
Control of the moth L. Botrana through the manipulation of the plant terpenoid profile, file e1dbfeaa-6a3c-4ac9-e053-1705fe0a1c61
|
71
|
|
Reducing susceptibility to powdery mildew in apple and grapevine through silencing of MLO genes, file e1dbfeaa-b037-4ac9-e053-1705fe0a1c61
|
66
|
|
Host resistance to Erwinia amylovora: germplasm, breeding, genetics, file e1dbfeaa-7b82-4ac9-e053-1705fe0a1c61
|
65
|
|
Transcriptional regulation of MdmiR285N microRNA in apple (Malus x domestica) and the heterologous plant system Arabidopsis thaliana., file e1dbfeab-db5f-4ac9-e053-1705fe0a1c61
|
65
|
|
Biotechnology for apple improvement disease resitance, file e1dbfeaa-fb40-4ac9-e053-1705fe0a1c61
|
64
|
|
Evaluation of different strategies to develop cisgenesis in grapevine, file e1dbfeaa-85f4-4ac9-e053-1705fe0a1c61
|
63
|
|
The golden delicious apple genome sequencing project: progress and perspectives, file e1dbfeaa-6187-4ac9-e053-1705fe0a1c61
|
62
|
|
Fire Blight resistance in apple/pear hybrids may be related to their genomic structure, file e1dbfeab-b5a7-4ac9-e053-1705fe0a1c61
|
62
|
|
Silencing Mlo-like susceptibility genes to achieve broadspectrum resistance to powdery mildew in apple, file e1dbfeaa-6711-4ac9-e053-1705fe0a1c61
|
60
|
|
“Clean” genome editing in grapevine (Vitis ssp.), file e1dbfeab-71c1-4ac9-e053-1705fe0a1c61
|
60
|
|
Characterization of putative pear-apple hybrids, file e1dbfeab-daad-4ac9-e053-1705fe0a1c61
|
60
|
|
Construction of a dense genetic map of the Malus fusca fire blight resistant accession MAL0045 using tunable genotyping-by-sequencing SNPs and microsatellites, file e1dbfeab-e874-4ac9-e053-1705fe0a1c61
|
60
|
|
Cisgenesis and intragenesis in Rosaceae crops, file e1dbfeaa-61e3-4ac9-e053-1705fe0a1c61
|
58
|
|
Functional characterization of fire blight resistance in malus fusca fine mapping, cloning and characterization of fire blight resistance genes from Malus fusca, file e1dbfeaa-679e-4ac9-e053-1705fe0a1c61
|
58
|
|
Overexpression of the molecular target of Apple Proliferation Phytoplasma in Apple, file e1dbfeab-da55-4ac9-e053-1705fe0a1c61
|
57
|
|
The role of Italy in the use of advanced plant breeding techniques on fruit trees: state of the art and future perspectives, file 43cf340c-f582-47f2-a4b0-89db4eab3f4b
|
56
|
|
Control of the grapevine moth Lobesia botrana through the manipulation of the plant terpenoid profile, file e1dbfeaa-7815-4ac9-e053-1705fe0a1c61
|
56
|
|
Single Cell Technology: a step forward to New Breeding Technologies, file e1dbfeac-01cb-4ac9-e053-1705fe0a1c61
|
56
|
|
A genetic engineering approach to study the adaptation of the grapevine moth Lobesia botrana from its wild hosts to Vitis, file e1dbfeaa-7464-4ac9-e053-1705fe0a1c61
|
55
|
|
Control of the moth L. Botrana through the manipulation of the plant terpenoid profile, file e1dbfeaa-6ac7-4ac9-e053-1705fe0a1c61
|
53
|
|
Generation of mildew-resistant grapevine clones via genome editing: potentials and hurdles, file e1dbfeab-8de1-4ac9-e053-1705fe0a1c61
|
51
|
|
DArT and SSR markers are linked with a strong QTL for resistance to fire blight in the apple wild species Malus fusca., file e1dbfeaa-7a8d-4ac9-e053-1705fe0a1c61
|
50
|
|
Unique evolutionary pattern of NBS-LRR genes among five Rosaceae species, file e1dbfeaa-7f40-4ac9-e053-1705fe0a1c61
|
50
|
|
Biotechnology for horticultural crops: improvement disease resistance in malus and grapevine, file e1dbfeaa-fb76-4ac9-e053-1705fe0a1c61
|
50
|
|
De novo transcriptome assembly and functional analysis reveal a dihydrochalcone 3-hydroxylase(DHC3H) of wild Malus species that produces sieboldin in vivo, file b7c5208c-3d2d-4447-a42b-ef4984030c87
|
49
|
|
Characterisation of apple-pear hybrids (Malus domestica x Pyrus communis), file e1dbfeaa-f004-4ac9-e053-1705fe0a1c61
|
49
|
|
Genetic analysis and fine mapping of the fire blight resistance locus of Malus ×arnoldiana on linkage group 12 reveal first candidate genes, file e1dbfeab-efe5-4ac9-e053-1705fe0a1c61
|
49
|
|
Role of calcium dependent protein kinases (CDPKs) in resistant and susceptible cultivars of Malus x domestica in response to the pathogen Erwinia amylovora, file e1dbfeaa-7932-4ac9-e053-1705fe0a1c61
|
48
|
|
Metabolite profiling of dihydrochalcone compounds in apple germplasm collection, file e1dbfeaa-613f-4ac9-e053-1705fe0a1c61
|
46
|
|
QTL analysis for number of burrknots in apple, file e1dbfeaa-6203-4ac9-e053-1705fe0a1c61
|
46
|
|
Transcriptome and metabolic profiling provide insights into the role of MdPGT1 in the phloridzin-mediated effect on apple development, file e1dbfeab-daab-4ac9-e053-1705fe0a1c61
|
43
|
|
Malus genome editing via CRISPR/Cas9 to develop sustainable and pest free apples, file e1dbfeab-db61-4ac9-e053-1705fe0a1c61
|
43
|
|
LD estimation and analysis of diversity in apple, file e1dbfeaa-61ff-4ac9-e053-1705fe0a1c61
|
41
|
|
New approaches for the development and characterization of genome-edited fruit trees, file e1dbfeab-91e9-4ac9-e053-1705fe0a1c61
|
41
|
|
Identification of new resistance gene analogs in 33 wild Malus species, file e1dbfeaa-61e5-4ac9-e053-1705fe0a1c61
|
40
|
| Totale |
21.097 |