Natural variation in leaf morphology results from mutation of a novel KNOX gene.
about
A comprehensive classification and evolutionary analysis of plant homeobox genesBeyond the Divide: Boundaries for Patterning and Stem Cell Regulation in PlantsBehavior of Leaf Meristems and Their ModificationFrom limbs to leaves: common themes in evolutionary diversification of organ formRing the BELL and tie the KNOX: roles for TALEs in gynoecium developmentRegulation of Compound Leaf DevelopmentA developmental model for branching morphogenesis of lake cress compound leafScreening of Candidate Leaf Morphology Genes by Integration of QTL Mapping and RNA Sequencing Technologies in Oilseed Rape (Brassica napus L.)Antagonistic roles for KNOX1 and KNOX2 genes in patterning the land plant body plan following an ancient gene duplicationLatent developmental and evolutionary shapes embedded within the grapevine leafClimate and Developmental Plasticity: Interannual Variability in Grapevine Leaf MorphologyA quantitative genetic basis for leaf morphology in a set of precisely defined tomato introgression linesMorphological evolution in land plants: new designs with old genesMorphogenesis of simple and compound leaves: a critical reviewThe genetic architecture of local adaptation and reproductive isolation in sympatry within the Mimulus guttatus species complex.Leaf shape evolution has a similar genetic architecture in three edaphic specialists within the Mimulus guttatus species complexStage-specific regulation of Solanum lycopersicum leaf maturation by class 1 KNOTTED1-LIKE HOMEOBOX proteins.Trifoliate encodes an MYB transcription factor that modulates leaf and shoot architecture in tomato.Duplicated STM-like KNOX I genes act in floral meristem activity in Eschscholzia californica (Papaveraceae).Light-Induced Indeterminacy Alters Shade-Avoiding Tomato Leaf Morphology.TALE and Shape: How to Make a Leaf Different.Modifications to a LATE MERISTEM IDENTITY1 gene are responsible for the major leaf shapes of Upland cotton (Gossypium hirsutum L.).Coordination of auxin-triggered leaf initiation by tomato LEAFLESS.Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant SciencesEvolutionary developmental transcriptomics reveals a gene network module regulating interspecific diversity in plant leaf shape.Cladodes, leaf-like organs in Asparagus, show the significance of co-option of pre-existing genetic regulatory circuit for morphological diversity of plantsRegulation of protein function by 'microProteins'.Quantitative genetic analysis indicates natural selection on leaf phenotypes across wild tomato species (Solanum sect. Lycopersicon; Solanaceae).Differences in insect resistance between tomato species endemic to the Galapagos Islands.microProtein Prediction Program (miP3): A Software for Predicting microProteins and Their Target Transcription Factors.An assessment of transgenomics as a tool for identifying genes involved in the evolutionary differentiation of closely related plant species.A Decrease in Ambient Temperature Induces Post-Mitotic Enlargement of Palisade Cells in North American Lake CressThe importance of living botanical collections for plant biology and the "next generation" of evo-devo research.Water-Wisteria as an ideal plant to study heterophylly in higher aquatic plants.KNOX1 genes regulate lignin deposition and composition in monocots and dicots.A New Advanced Backcross Tomato Population Enables High Resolution Leaf QTL Mapping and Gene IdentificationModification and co-option of leaf developmental programs for the acquisition of flat structures in monocots: unifacial leaves in Juncus and cladodes in Asparagus.A role for APETALA1/fruitfull transcription factors in tomato leaf development.Genetic Architecture and Molecular Networks Underlying Leaf Thickness in Desert-Adapted Tomato Solanum pennellii.KNAT3/4/5-like class 2 KNOX transcription factors are involved in Medicago truncatula symbiotic nodule organ development.
P2860
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P2860
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
description
2008 nî lūn-bûn
@nan
2008 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@ast
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@en
type
label
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@ast
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@en
prefLabel
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@ast
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@en
P2093
P1433
P1476
Natural variation in leaf morphology results from mutation of a novel KNOX gene.
@en
P2093
Daniel Koenig
Fei Yian Yoong
Julie Kang
P304
P356
10.1016/J.CUB.2008.04.008
P407
P577
2008-05-01T00:00:00Z