Tomato is a Next-generation Model Plant for Research and Development
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概要
- 論文の詳細を見る
As a preface for the tomato special issue, a significance of tomato for research and development was described. Tomato is a model species of Solanaceae, and its genome is currently being sequenced. In order to fully utilize the genome information, scientists have to develop resources and tools for tomato functional genomics. In this special issue, such resources and tools, mainly developed by Japanese scientists were reviewed. In addition, scientific name of tomato was discussed because, for tomato being a model plant, scientists should use a common word for tomato.
- 園芸学会の論文
著者
関連論文
- Research tools for functional genomics in melon (Cucumis melo L.) : Current status and prospects
- Ectopic expression of an AP3-like and a PI-like genes from 'Sekkoku' orchid (Dendrobium moniliforme) causes the homeotic conversion of sepals to petals in whorl 1 and the suppression of carpel development in whorl 4 in Arabidopsis flowers
- Effects of Root-volume Restriction and Salinity on the Fruit Yield and Quality of Processing Tomato
- Screening for γ-aminobutyric Acid (GABA)-rich Tomato Varieties
- Molecular and genetic characterization of transgenic tomato expressing 3-hydroxy-3-methylglutaryl coenzyme A reductase
- Gene dosage and genetic background affect miraculin accumulation in transgenic tomato fruits
- Mutant Resources for the Miniature Tomato (Solanum lycopersicum L.) 'Micro-Tom'
- A Highly Efficient Transformation Protocol for Micro-Tom, a Model Cultivar for Tomato Functional Genomics
- Efficacy of a special screened greenhouse covered by duplex fine mesh in reducing maize outcrossing
- Effect of a special screened greenhouse covered by fine mesh on maize outcrossing
- Reducing gene flow from pollen dispersal of genetically modified plants in special screened greenhouses
- Ethylmethanesulfonate (EMS) mutagenesis of Solanum lycopersicum cv. Micro-Tom for large-scale mutant screens
- Metabolic Alterations in Organic Acids and γ-Aminobutyric Acid in Developing Tomato (Solanum lycopersicum L.) Fruits
- Biochemical Mechanism on GABA Accumulation During Fruit Development in Tomato
- Inclusion of Tomato in the Genus Solanum as "Solanum lycopersicum" is Evident from Phylogenetic Studies
- A simple method for purifying undenatured miraculin from transgenic tomato fruit
- Overexpression of apple spermidine synthase 1 (MdSPDS1) leads to significant salt tolerance in tomato plants
- Efficient plant regeneration from protoplasts of eggplant rootstock cultivar and its wild relatives
- Tomato is a Next-generation Model Plant for Research and Development
- A simple method for purifying undenatured miraculin from transgenic tomato fruit
- TOMATOMA : A Novel Tomato Mutant Database Distributing Micro-Tom Mutant Collections