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|a 9780470714218
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| 040 |
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|a AR-BaUFA
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| 090 |
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|a 581 BUC
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| 100 |
1 |
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|a Buchanan, Bob B.
|9 29004
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| 245 |
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|a Biochemistry and molecular biology of plants
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| 250 |
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|a 2nd. ed.
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| 260 |
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|a Maryland
|b American Society of Plant Physiologists
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| 260 |
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|a Chichester
|b Willey Blackwell
|c 2017
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| 300 |
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|a 1264 p.
|b il., fot., grafs.
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| 500 |
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|a Table of contents: The Editors List of Contributors Preface About the Companion Website COMPARTMENTS 1 Membrane Structure and Membranous Organelles Introduction 1.1 Common properties and inheritance of cell membranes 1.2 The fluids mosaic membrane model 1.3 Plasma membrane 1.4 Endoplasmic reticulum 1.5 Golgi apparatus 1.6 Exocytosis and endocytosis 1.7 Vacuoles 1.8 The nucleus 1.9 Peroxisomes 1.10 Plastids 1.11 Mitochondria Summary 2 The Cell Wall Introduction 2.1 Sugars are building blocks of the cell wall 2.2 Macromolecules of the cell wall 2.3 Cell wall architecture 2.4 Cell wall biosynthesis and assembly 2.5 Growth and cell walls 2.6 Cell differentiation 2.7 Cell walls as sources of food, feed, fiber, and fuel, and their genetic improvement Summary 3 Membrane Transport Introduction 3.1 Overview of plant membrane transport systems 3.2 Pumps 3.3 Ion channels 3.4 Cotransporters 3.5 Water transport through aquaporins Summary 4 Protein Sorting and Vesicle Traffic Introduction 4.1 The cellular machinery of protein sorting 4.2 Targeting proteins to the plastids 4.3 Targeting proteins to mitochondria 4.4 Targeting proteins to peroxisomes 4.5 Transport in and out of the nucleus 4.6 ER is the secretory pathway port of entry and a protein nursery 4.7 Protein traffic and sorting in the secretory pathway: the ER 4.8 Protein traffic and sorting in the secretory pathway: the Golgi apparatus and beyond 4.9 Endocytosis and endosomal compartments Summary 5 The Cytoskeleton Introduction 5.1 Introduction to the cytoskeleton 5.2 Actin and tubulin gene families 5.3 Characteristics of actin filaments and microtubules 5.4 Cytoskeletal accessory proteins 5.5 Observing the cytoskeleton: Statics and dynamics 5.6 Role of actin filaments in directed intracellular movement 5.7 Cortical microtubules and expansion 5.8 The cytoskeleton and signal transduction 5.9 Mitosis and cytokinesis Summary CELL REPRODUCTION 6 Nucleic Acids Introduction 6.1 Composition of nucleic acids and synthesis of nucleotides 6.2 Replication of nuclear DNA 6.3 DNA repair 6.4 DNA recombination 6.5 Organellar DNA 6.6 DNA transcription 6.7 Characteristics and functions of RNA 6.8 RNA processing Summary 7 Amino Acids Introduction 7.1 Amino acid biosynthesis in plants: research and prospects 7.2 Assimilation of inorganic nitrogen into N-transport amino acids 7.3 Aromatic amino acids 7.4 Aspartate-derived amino acids 7.5 Branched-chain amino acids 7.6 Glutamate-derived amino acids 7.7 Histidine Summary 8 Lipids Introduction Structure and function of lipids 8.2 Fatty acid biosynthesis 8.3 Acetyl-CoA carboxylase 8.4 Fatty acid synthase 8.5 Desaturation and elongation of C16 and C18 fatty acids 8.6 Synthesis of unusual fatty acids 8.7 Synthesis of membrane lipids 8.8 Function of membrane lipids 8.9 Synthesis and function of extracellular lipids 8.10 Synthesis and catabolism of storage lipids 8.11 Genetic engineering of lipids Summary 9 Genome Structure and Organization Introduction 9.1 Genome structure: a 21st.century perspective 9.2 Genome organization 9.3 Transposable elements 9.4 Gene expression 9.5 Chromatin and the epigenetic regulation of gene expression Summary 10 Protein Synthesis, Folding, and Degradation Introduction 10.1 Organellar compartmentalization of protein synthesis 10.2 From RNA to protein 10.3 Mechanisms of plant viral translation 10.4 Protein synthesis in plastids 10.5 Post-translational modification of proteins 10.6 Protein degradation Summary 11 Cell Division Introduction 11.1 Animal and plant cell cycles 11.2 Historical perspective on cell cycle research 11.3 Mechanisms of cell cycle control 11.4 The cell cycle in action 11.5 Cell cycle control during development Summary ENERGY FLOW 12 Photosynthesis Introduction 12.1 Overview of photosynthesis 12.2 Light absorption and energy conversion 12.3 Photosystem structure and function 12.4 Electron transport pathways in chloroplast membranes 12.5 ATP synthesis in chloroplasts 12.6 Organization and regulation of photosynthetic complexes 12.7 Carbon reactions: the Calvin-Benson cycle 12.8 Rubisco 12.9 Regulation of the Calvin-Benson cycle by light 12.10 Variations in mechanisms of CO 2 fixation Summary 13 Carbohydrate Metabolism Introduction 13.1 The concept of metabolite pools 13.2 The hexose phosphate pool: a major crossroads in plant metabolism 13.3 Sucrose biosynthesis 13.4 Sucrose metabolism 13.5 Starch biosynthesis 13.6 Partitioning of photoassimilates between sucrose and starch 13.7 Starch degradation 13.8 The pentose phosphate/triose phosphate pool 13.9 Energy and reducing power for biosynthesis 13.10 Sugar-regulated gene expression Summary 14 Respiration and Photorespiration Introduction 14.1 Overview of respiration 14.2 Citric acid cycle 14.3 Plant mitochondrial electron transport 14.4 Plant mitochondrial ATP synthesis 14.5 Regulation of the citric acid cycle and the cytochrome pathway 14.6 Integration of the cytochrome pathway and nonphosphorylating pathways 14.7 Interactions between mitochondria and other cellular compartments 14.8 Biochemical basis of photorespiration 14.9 The photorespiratory pathway 14.10 Role of photorespiration in plants Summary METABOLIC AND DEVELOPMENTAL INTEGRATION 15 Long-Distance Transport Introduction 15.1 Selection pressures and long-distance transport systems 15.2 Cell biology of transport modules 15.3 Short-distance transport events between xylem and nonvascular cells 15.4 Short-]distance transport events between phloem and nonvascular cells 15.5 Whole-plant organization of xylem transport 15.6 Whole-plant organization of phloem transport 15.7 Communication and regulation controlling phloem transport events Summary 16 Nitrogen and Sulfur Introduction 16.1 Overview of nitrogen in the biosphere and in plants 16.2 Overview of biological nitrogen fixation 16.3 Enzymology of nitrogen fixation 16.4 Symbiotic nitrogen fixation 16.5 Ammonia uptake and transport 16.6 Nitrate uptake and transport 16.7 Nitrate reduction 16.8 Nitrite reduction 16.9 Nitrate signaling 16.10 Interaction between nitrate assimilation and carbon metabolism 16.11 Overview of sulfur in the biosphere and plants 16.12 Sulfur chemistry and function 16.13 Sulfate uptake and transport 16.14 The reductive sulfate assimilation pathway 16.15 Cysteine synthesis 16.16 Synthesis and function of glutathione and its derivatives 16.17 Sulfated compounds 16.18 Regulation of sulfate assimilation and interaction with nitrogen and carbon metabolism Summary 17 Biosynthesis of Hormones Introduction 17.1 Gibberellins 17.2 Abscisic acid 17.3 Cytokinins 17.4 Auxins 17.5 Ethylene 17.6 Brassinosteroids 17.7 Polyamines 17.8 Jasmonic acid 17.9 Salicylic acid 17.10 Strigolactones Summary 18 Signal Transduction Introduction 18.1 Characteristics of signal perception, transduction, and integration in plants 18.2 Overview of signal perception at the plasma membrane 18.3 Intracellular signal transduction, amplification, and integration via second messengers and MAPK cascades 18.4 Ethylene signal transduction 18.5 Cytokinin signal transduction 18.6 Integration of auxin signaling and transport 18.7 Signal transduction from phytochromes 18.8 Gibberellin signal transduction and its integration with phytochrome signaling during seedling development 18.9 Integration of light, ABA, and CO2 signals in the regulation of stomatal aperture 18.10 Prospects Summary 19 Molecular Regulation of Reproductive Development Introduction 19.1 The transition from vegetative to reproductive development 19.2 The molecular basis of flower development 19.3 The formation of male gametes 19.4 The formation of female gametes 19.5 Pollination and fertilization 19.6 The molecular basis of self-ncompatibility 19.7 Seed development Summary 20 Senescence and Cell Death Introduction 20.1 Types of cell death 20.2 PCD during seed development and germination 20.3 Cell death during the development of secretory bodies, defensive structures and organ shapes 20.4 PCD during reproductive development 20.5 Senescence and PCD in the terminal development of leaves and other lateral organs 20.6 Pigment metabolism in senescence 20.7 Macromolecule breakdown and salvage of nutrients in senescence 20.8 Energy and oxidative metabolism during senescence 20.9 Environmental influences on senescence and cell death I: Abiotic interactions 20.10 Environmental influences on senescence and cell death II: PCD responses to pathogen attack 20.11 Plant hormones in senescence and defense-related PCD Summary PLANT ENVIRONMENT AND AGRICULTURE 21 Responses to Plant Pathogens Introduction 21.1 Pathogens, pests, and disease 21.2 An overview of immunity and defense 21.3 How pathogens and pests cause disease 21.4 Preformed defenses 21.5 Induced defense 21.6 Effector-triggered immunity, a second level of induced defense 21.7 Other sources of genetic variation for resistance 21.8 Local and systemic defense signaling 21.9 Plant gene silencing confers virus resistance, tolerance, and attenuation 21.10 Control of plant pathogens by genetic engineering Summary 22 Responses to Abiotic Stress Introduction 22.1 Plant responses to abiotic stress 22.2 Physiological and cellular responses to water deficit 22.3 Gene expression and signal transduction in response to dehydration 22.4 Freezing and chilling stress 22.5 Flooding and oxygen deficit 22.6 Oxidative stress 22.7 Heat stress 22.8 Crosstalk in stress responses Summary 23 Mineral Nutrient Acquisition, Transport, and Utilization Introduction 23.1 Overview of essential mineral elements 23.2 Mechanisms and regulation of plant K+ transport 23.3 Phosphorus nutrition and transport 23.4 The molecular physiology of micronutrient acquisition 23.5 Plant responses to mineral toxicity Summary 24 Natural Products Introduction 24.1 Terpenoids 24.2 Biosynthesis of the basic five-carbon unit 24.3 Repetitive additions of C5 units 24.4 Formation of parent carbon skeletons 24.5 Modification of terpenoid skeletons 24.6 Metabolic engineering of terpenoid product
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| 590 |
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|a DIFU2018D
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| 650 |
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0 |
|a BIOLOGIA MOLECULAR
|2 Agrovoc
|9 1141
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| 650 |
|
0 |
|a ESTRUCTURA CELULAR
|2 Agrovoc
|9 149
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| 650 |
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0 |
|a GENOMAS
|2 Agrovoc
|9 1609
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| 650 |
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0 |
|a LIPIDOS
|2 Agrovoc
|9 2164
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| 650 |
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0 |
|a AMINOACIDOS
|2 Agrovoc
|9 4830
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| 650 |
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0 |
|a MEDIO AMBIENTE
|2 Agrovoc
|9 333
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| 650 |
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0 |
|a PROTEINAS
|2 Agrovoc
|9 1588
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| 700 |
1 |
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|a Gruissem, Wilhelm
|9 29005
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| 700 |
1 |
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|a Jones, Russell L.
|9 29006
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| 942 |
0 |
0 |
|c LIBRO14D
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| 976 |
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|a AAG
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| 992 |
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|c Química de biomoléculas
|