| Response to <i>In Vitro</i> Micropropagation of Plants with Different Degrees of Variegation of the Commercial <i>Gymnocalycium</i> cv. Fancy (Cactaceae) (preprint) |
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| Comprehensive allelic series analysis uncovers the novel function of the tomato FALSIFLORA gene in the cessation of floral meristem activity |
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| Respiratory burst oxidase G (SlRBOHG): A key regulator of H<inf>2</inf>O<inf>2</inf>-Mediated Na<sup>+</sup> homeostasis and salt tolerance in tomato |
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| Response to In Vitro Micropropagation of Plants with Different Degrees of Variegation of the Commercial Gymnocalycium cv. Fancy (Cactaceae) |
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| First Ex Situ In Vitro Propagation Protocol of <i>Coronilla viminalis</i> Salisb., An Endangered Fodder Species Adapted to Drought and Salinity |
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| The First Protocol for In Vitro Propagation of Kalanchoe beharensis Through Adventitious Shoots, a Preliminary Study |
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| Tomato POLLEN DEFICIENT 2 encodes a G-type lectin receptor kinase required for viable pollen grain formation |
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| Tomato <i>CRABS CLAW</i> paralogues interacting with chromatin remodelling factors to mediate between carpel development and floral determinacy |
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| Approaching the genetic dissection of indirect adventitious organogenesis process in tomato explants |
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| Na<SUP>+</SUP> transporter HKT1;2 reduces flower Na<SUP>+</SUP> content and considerably mitigates the decline in tomato fruit yields under saline conditions |
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| The Tomato <i>SlVIPP1</i> Gene Is Required for Plant Survival Through the Proper Development of Chloroplast Thylakoid Membrane |
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| The <i>res</i> (<i>restored cell structure by salinity</i>) tomato mutant reveals the role of the DEAD-box RNA helicase SlDEAD39 in plant development and salt response |
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| <i>ENO</i> regulates tomato fruit size through the floral meristem development network |
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| A highly efficient organogenesis protocol based on zeatin riboside for in vitro regeneration of eggplant |
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| Phenotypic and genetic characterization of tomato mutants provides new insights into leaf development and its relationship to agronomic traits |
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| <i>Alq</i> mutation increases fruit set rate and allows the maintenance of fruit yield under moderate saline conditions |
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| The SlCBL10 Calcineurin B-Like Protein Ensures Plant Growth under Salt Stress by Regulating Na<SUP>+</SUP> and Ca<SUP>2+</SUP> Homeostasis |
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| Developmental role of the tomato Mediator complex subunit MED18 in pollen ontogeny |
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| The sodium transporter encoded by the <i>HKT1</i>;<i>2</i> gene modulates sodium/potassium homeostasis in tomato shoots under salinity |
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| Albino T-DNA tomato mutant reveals a key function of 1-deoxy-D-xylulose-5-phosphate synthase (DXS1) in plant development and survival |
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| A collection of enhancer trap insertional mutants for functional genomics in tomato |
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| <i>TOMATO AGAMOUS1</i> and <i>ARLEQUIN/TOMATO AGAMOUS</i>-<i>LIKE1</i> MADS-box genes have redundant and divergent functions required for tomato reproductive development |
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| The tomato mutant <i>ars1</i> (<i>altered response to salt stress 1</i>) identifies an R1-type MYB transcription factor involved in stomatal closure under salt acclimation |
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| Characterization of <i>vegetative</i> <i>inflorescence</i> (<i>mc</i>-<i>vin</i>) mutant provides new insight into the role of <i>MACROCALYX</i> in regulating inflorescence development of tomato |
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| Transcriptional Activity of the MADS Box <i>ARLEQUIN</i>/<i>TOMATO AGAMOUS</i>-<i>LIKE1</i> Gene Is Required for Cuticle Development of Tomato Fruit |
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| Mutation at the tomato <i>EXCESSIVE NUMBER OF FLORAL ORGANS</i> (<i>ENO</i>) locus impairs floral meristem development, thus promoting an increased number of floral organs and fruit size |
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| The tomato <i>res</i> mutant which accumulates JA in roots in non-stressed conditions restores cell structure alterations under salinity |
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| Heterologous expression of the yeast <i>HAL5</i> gene in tomato enhances salt tolerance by reducing shoot Na<SUP>+</SUP> accumulation in the long term |
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| Early anther ablation triggers parthenocarpic fruit development in tomato |
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| Production of engineered long-life and male sterile <i>Pelargonium</i> plants |
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| Neutralizing antibodies against rotavirus produced in transgenically labelled purple tomatoes |
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| Overexpression. of dehydrin <i>tas14</i> gene improves the osmotic stress imposed by drought and salinity in tomato |
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| Tomato Fruit Photosynthesis Is Seemingly Unimportant in Primary Metabolism and Ripening But Plays a Considerable Role in Seed Development |
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| An insertional mutagenesis programme with an enhancer trap for the identification and tagging of genes involved in abiotic stress tolerance in the tomato wild-related species <i>Solanum pennellii</i> |
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| Genetic and Physiological Characterization of the <i>Arlequin</i> Insertional Mutant Reveals a Key Regulator of Reproductive Development in Tomato |
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| Functional Analysis of the <i>Arlequin</i> Mutant Corroborates the Essential Role of the <i>ARLEQUIN</i>/<i>TAGL1</i> Gene during Reproductive Development of Tomato |
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| Molecular Tools for Enhancing Salinity Tolerance in Plants |
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| Efficient plant regeneration from protoplasts of Kalanchoe blossfeldiana via organogenesis |
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| Efficient transformation of Kalanchoe blossfeldiana and production of male-sterile plants by engineered anther ablation |
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| A multisite gateway-based toolkit for targeted gene expression and hairpin RNA silencing in tomato fruits |
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| The <i>HAL1</i> function on Na<SUP>+</SUP> homeostasis is maintained over time in salt-treated transgenic tomato plants, but the high reduction of Na<SUP>+</SUP> in leaf is not associated with salt tolerance |
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| OVEREXPRESSION OF Tas14 GENE IN TRANSGENIC TOMATO PLANTSIMPROVES DROUGHT AND SALT STRESS TOLERANCE |
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| Erratum: The ploidy level of transgenic plants in Agrobacterium-mediated transformation of tomato cotyledons (Lycopersicon esculentum Mill.) is genotype and procedure dependent (Theoretical and Applied Genetics (2003) 106 (231-238)) |
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| The ploidy level of transgenic plants in <i>Agrobacterium</i>-mediated transformation of tomato cotyledons (<i>Lycopersicon esculentum</i> L.Mill.) is genotype and procedure dependent |
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