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Solanum tuberosum --- Mutation provoquée --- Induced mutation --- Méristème --- Meristems --- Polymorphisme génétique --- Genetic polymorphism --- Différenciation cellulaire --- Cell differentiation --- Clonage --- cloning --- Irradiation --- irradiation --- Technique des traceurs --- Tracer techniques --- Mutation --- mutation --- Méristème apical --- Apical meristems --- 633.491 --- 631.52 --- 58 --- Potato. Solanum tuberosum --- Theses --- 633.491 Potato. Solanum tuberosum --- irradiation. --- mutation. --- Shoot apex --- Histogenic effects

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Phytohistology. Phytocytology --- Phytochemistry. Phytobiochemistry --- Plant embryology and development --- Plant cell cycle. --- Plant molecular biology. --- Plant cellular control mechanisms. --- Cell division. --- PLANTS --- ARABIDOPSIS --- CELL DIVISION --- CELL CYCLE --- PLANT DEVELOPMENT --- APICAL MERISTEMS --- MITOSIS --- DNA REPLICATION --- HISTONES --- MITOSES --- MUTANTS --- REVIEWS --- STRESS RESPONSE --- HORMONAL CONTROL --- KINASES --- CONTROL --- GENETIC REGULATION --- GROWTH --- MICROTUBULES

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Leaf morphology is obviously determined in a plant. By contrast, its morphology is often changeable when the plant copes with various environmental changes. To update our understanding of the regulatory mechanisms of leaf morphogenesis with robustness and flexibility, this book provides a series of academic papers that cover molecular mechanism of leaf morphogenesis and offers readers' opportunities to find beautiful mechanisms that plants develop.

Research & information: general --- Biology, life sciences --- Botany & plant sciences --- apical meristems --- Class I KNOX genes --- compound leaves --- determinacy --- Dryopteridaceae --- ferns --- leaf development --- pinna development --- shoot development --- Nepenthes --- carnivorous plants --- UPLC-qToF-MS --- metabolomics --- tissue specificity --- cheminformatics --- CIN-like TCP transcription factors --- regulation --- light --- high temperature --- microRNA319 --- BRAHMA --- TIE1 transcriptional repressors --- TEAR1 E3 ligases --- Leaf angle --- Phytohormones --- crop yield --- BR --- Crosstalk --- Class I KNOX --- Elaphoglossum --- fronds --- leaf diversity --- leaf evolution and development --- megaphyll --- Riccia fluitans --- liverwort --- adaptation --- terrestrialization --- transformation --- sexual induction --- shoot meristem --- embryogenesis --- stem cell --- boundary --- transcription factor --- cytochrome P450 --- CUC --- STM --- LAS --- BLR --- KNAT6 --- KLU --- CYP78A5 --- ASYMMETRIC LEAVES2 --- AS2/LOB domain --- adaxial–abaxial polarity --- ETTIN/AUXIN RESPONSE FACTOR3 (ETT/ARF3) --- AS2 body --- nucleolus --- gene body methylation --- ribosomal DNA (rDNA) --- adaptive significance of insect galls --- gall-inducing insects --- gall formation mechanism --- insect effectors

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• Reference Manager
• EndNote
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Leaf morphology is obviously determined in a plant. By contrast, its morphology is often changeable when the plant copes with various environmental changes. To update our understanding of the regulatory mechanisms of leaf morphogenesis with robustness and flexibility, this book provides a series of academic papers that cover molecular mechanism of leaf morphogenesis and offers readers' opportunities to find beautiful mechanisms that plants develop.

Research & information: general --- Biology, life sciences --- Botany & plant sciences --- apical meristems --- Class I KNOX genes --- compound leaves --- determinacy --- Dryopteridaceae --- ferns --- leaf development --- pinna development --- shoot development --- Nepenthes --- carnivorous plants --- UPLC-qToF-MS --- metabolomics --- tissue specificity --- cheminformatics --- CIN-like TCP transcription factors --- regulation --- light --- high temperature --- microRNA319 --- BRAHMA --- TIE1 transcriptional repressors --- TEAR1 E3 ligases --- Leaf angle --- Phytohormones --- crop yield --- BR --- Crosstalk --- Class I KNOX --- Elaphoglossum --- fronds --- leaf diversity --- leaf evolution and development --- megaphyll --- Riccia fluitans --- liverwort --- adaptation --- terrestrialization --- transformation --- sexual induction --- shoot meristem --- embryogenesis --- stem cell --- boundary --- transcription factor --- cytochrome P450 --- CUC --- STM --- LAS --- BLR --- KNAT6 --- KLU --- CYP78A5 --- ASYMMETRIC LEAVES2 --- AS2/LOB domain --- adaxial–abaxial polarity --- ETTIN/AUXIN RESPONSE FACTOR3 (ETT/ARF3) --- AS2 body --- nucleolus --- gene body methylation --- ribosomal DNA (rDNA) --- adaptive significance of insect galls --- gall-inducing insects --- gall formation mechanism --- insect effectors --- apical meristems --- Class I KNOX genes --- compound leaves --- determinacy --- Dryopteridaceae --- ferns --- leaf development --- pinna development --- shoot development --- Nepenthes --- carnivorous plants --- UPLC-qToF-MS --- metabolomics --- tissue specificity --- cheminformatics --- CIN-like TCP transcription factors --- regulation --- light --- high temperature --- microRNA319 --- BRAHMA --- TIE1 transcriptional repressors --- TEAR1 E3 ligases --- Leaf angle --- Phytohormones --- crop yield --- BR --- Crosstalk --- Class I KNOX --- Elaphoglossum --- fronds --- leaf diversity --- leaf evolution and development --- megaphyll --- Riccia fluitans --- liverwort --- adaptation --- terrestrialization --- transformation --- sexual induction --- shoot meristem --- embryogenesis --- stem cell --- boundary --- transcription factor --- cytochrome P450 --- CUC --- STM --- LAS --- BLR --- KNAT6 --- KLU --- CYP78A5 --- ASYMMETRIC LEAVES2 --- AS2/LOB domain --- adaxial–abaxial polarity --- ETTIN/AUXIN RESPONSE FACTOR3 (ETT/ARF3) --- AS2 body --- nucleolus --- gene body methylation --- ribosomal DNA (rDNA) --- adaptive significance of insect galls --- gall-inducing insects --- gall formation mechanism --- insect effectors