about
Fruit aromas in mature fleshy fruits as signals of readiness for predation and seed dispersalPrincipal component analysis (PCA) of volatile terpene compounds dataset emitted by genetically modified sweet orange fruits and juices in which a D-limonene synthase was either up- or down-regulated vs. empty vector controlsPollen competition as a reproductive isolation barrier represses transgene flow between compatible and co-flowering citrus genotypes.Gene stacking in 1-year-cycling APETALA1 citrus plants for a rapid evaluation of transgenic traits in reproductive tissues.β-caryophyllene emitted from a transgenic Arabidopsis or chemical dispenser repels Diaphorina citri, vector of Candidatus Liberibacters.Fungal infestation boosts fruit aroma and fruit removal by mammals and birdsField performance of transgenic citrus trees: assessment of the long-term expression of uidA and nptII transgenes and its impact on relevant agronomic and phenotypic characteristics.Recent advances in the genetic transformation of trees.Citrus tristeza virus p23: determinants for nucleolar localization and their influence on suppression of RNA silencing and pathogenesis.Citrus tristeza virus: a pathogen that changed the course of the citrus industry.Resistance to pathogens in terpene down-regulated orange fruits inversely correlates with the accumulation of D-limonene in peel oil glandsCitrus tristeza virus p23: a unique protein mediating key virus-host interactions.Genomic Analysis of Terpene Synthase Family and Functional Characterization of Seven Sesquiterpene Synthases from Citrus sinensis.Symptoms induced by transgenic expression of p23 from Citrus tristeza virus in phloem-associated cells of Mexican lime mimic virus infection without the aberrations accompanying constitutive expression.Early events in Agrobacterium-mediated genetic transformation of citrus explants.Terpene down-regulation in orange reveals the role of fruit aromas in mediating interactions with insect herbivores and pathogens.Metabolic engineering of β-carotene in orange fruit increases its in vivo antioxidant properties.Development of viral vectors based on Citrus leaf blotch virus to express foreign proteins or analyze gene function in citrus plants.Ectopic expression of the p23 silencing suppressor of Citrus tristeza virus differentially modifies viral accumulation and tropism in two transgenic woody hosts.Transgenic expression in citrus of single-chain antibody fragments specific to Citrus tristeza virus confers virus resistance.Genetic transformation of sweet orange with the coat protein gene of Citrus psorosis virus and evaluation of resistance against the virus.Post-transcriptional gene silencing of the p23 silencing suppressor of Citrus tristeza virus confers resistance to the virus in transgenic Mexican lime.Viral-like symptoms induced by the ectopic expression of the p23 gene of Citrus tristeza virus are citrus specific and do not correlate with the pathogenicity of the virus strain.Tomato necrosis and the 369 nucleotide Y satellite of cucumber mosaic virus: factors affecting satellite biological expression.Transformed tomato plants express a satellite RNA of cucumber mosaic virus and produce lethal necrosis upon infection with viral RNA.Evaluation of selection strategies alternative to nptII in genetic transformation of citrus.Characterization of three linalool synthase genes from Citrus unshiu Marc. and analysis of linalool-mediated resistance against Xanthomonas citri subsp. citri and Penicilium italicum in citrus leaves and fruits.Anthocyanin biosynthesis and accumulation in blood oranges during postharvest storage at different low temperatures.Terpene down-regulation triggers defense responses in transgenic orange leading to resistance against fungal pathogens.Production of transgenic adult plants from clementine mandarin by enhancing cell competence for transformation and regeneration.Engineering of gibberellin levels in citrus by sense and antisense overexpression of a GA 20-oxidase gene modifies plant architecture.Constitutive expression of Arabidopsis LEAFY or APETALA1 genes in citrus reduces their generation time.Engineering d-limonene synthase down-regulation in orange fruit induces resistance against the fungus Phyllosticta citricarpa through enhanced accumulation of monoterpene alcohols and activation of defence.Ectopic accumulation of linalool confers resistance to Xanthomonas citri subsp. citri in transgenic sweet orange plants.Gene expression analysis in citrus reveals the role of gibberellins on photosynthesis and stress.Effect of storage and processing on plasmid, yeast and plant genomic DNA stability in juice from genetically modified orangesImpact of d -limonene synthase up- or down-regulation on sweet orange fruit and juice odor perceptionProtein analysis of moro blood orange pulp during storage at low temperaturesAccumulation of transgene-derived siRNAs is not sufficient for RNAi-mediated protection againstCitrus tristeza virusin transgenic Mexican limeRegeneration of transgenic citrus plants under non selective conditions results in high-frequency recovery of plants with silenced transgenes
P50
Q27010436-B2E5F972-DAB8-4DD3-A6B6-13958CC5A9DBQ28829431-D7AC7570-35FB-43B7-9174-B4CC15CE7A21Q31032632-6028130E-2786-4EC5-AEF1-384837AE16DCQ33347084-947925CC-B899-46B4-89D4-76B398AB81EAQ33912205-4653FC51-40B7-4003-9685-DB4980CCB40EQ33912284-966C6701-2B0C-4649-8360-07F95FDB119DQ34337104-FC38924D-4724-4B07-A161-CD4DBDE260D4Q34441401-0EFBEEF5-681E-4D08-8B46-7F9CF53564E4Q34578376-2EDD4456-0AED-41CC-A7BB-13A329EDAE40Q34809278-615BB047-089F-4F65-AF21-C4BF27E0B371Q36213607-01580C82-5CE0-412A-A84E-D511C8143D71Q40331370-147E5A58-F0EE-4A5B-9DE0-C1F12C32B2EEQ41538421-9ACABC8A-5097-4AB3-A702-EB33F72802BBQ42196158-070F97F9-4643-40E6-BD38-EDA4DA084CA4Q43027684-83B70349-B430-4219-ACF0-9A4F1E5D38E2Q44016740-367E0F40-1188-4A1D-8440-EC6D77D4092DQ44033754-063F8363-8303-41CE-A6D7-AEE3DC64220FQ45357141-D67C4DA6-81EB-4027-ABD1-F57214D5E718Q45365251-0F9A6B69-BFA1-4B08-8241-541F594A5868Q45378239-914E9D73-6B12-4A54-9F48-B12F11E9BCB2Q45401005-5728F93E-9A87-4FBA-83EB-A6B4BE231673Q45420559-B35A3B3A-8E6C-4BE8-8F49-BD99EB11B1BFQ45459621-59211142-EC98-4CD9-B79C-AB76AA657B13Q45774057-DDC106D7-FB64-4FB9-A945-D346EE2FE695Q45860189-6674B2AB-34FF-4E48-87D4-D7D087EFC44CQ46720387-79167FE5-39AE-4A8D-82B8-FB1C995EB87CQ46807789-329804F5-0862-47DA-8FFB-B7BB33C5C79AQ50246501-D1DAB7B9-E843-4987-B7CE-5DAEE3F77BD6Q50469604-A0F74EFD-2E91-48CE-82DF-2E3CA9A10C29Q50661416-38D39E4E-2AFE-4B49-8124-A9C32A79EE8AQ51062360-F61504B7-AD30-421F-B34D-37F2ED0CD256Q52138891-E5D0BC24-0F7C-4BB6-AC08-6F02524FD49AQ52638660-FBC45906-4A76-4072-9AB7-87A4DB324A1DQ52862797-4A3E98AE-A3E1-4947-BD49-D2F2E071CD6DQ53461814-1924CCB7-4902-4946-A9A3-148E942EB533Q55221835-4962C6BB-6384-41AF-BEA6-54A04676CE95Q60339640-B5303D89-1D24-453A-837F-63B7CF3575C1Q60446372-B337EA0C-EDEE-4483-8FA3-D3C0F510B39EQ60446402-87A9823A-BCF8-4CF0-8044-1236391D2345Q60446435-8E8C5B26-02D7-429B-A854-4DCE6ED1F26F
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Leandro Peña
@ast
Leandro Peña
@en
Leandro Peña
@es
Leandro Peña
@nl
Leandro Peña
@sl
type
label
Leandro Peña
@ast
Leandro Peña
@en
Leandro Peña
@es
Leandro Peña
@nl
Leandro Peña
@sl
prefLabel
Leandro Peña
@ast
Leandro Peña
@en
Leandro Peña
@es
Leandro Peña
@nl
Leandro Peña
@sl
P1053
F-9089-2014
P106
P21
P2798
P31
P3829
P496
0000-0002-9853-366X