Listing 1 - 7 of 7 |
Sort by
|
Choose an application
Culicidae --- Culicidae --- Larvae --- Larvae --- Vectors --- Vectors --- Bluetongue --- Bluetongue --- biological development --- biological development --- biotopes --- biotopes
Choose an application
genetics --- genomes --- genetic engineering --- gene expression --- biological development --- DNA. --- DNA --- population genetics --- Molecular genetics
Choose an application
Mathematics. --- Animal Diseases. --- Animal Husbandry. --- Animal diseases --- Animal diseases --- animal husbandry --- animal husbandry --- Animal physiology --- Animal physiology --- Animal production --- Animal production --- biological development --- biological development --- biology --- biology --- Climatology --- Climatology --- Computer software --- Computer software --- cropping systems --- cropping systems --- Cultivation --- Cultivation --- ecology --- ecology --- environment --- environment --- Growth --- Growth --- Mathematical models --- Mathematical models --- pests of plants --- pests of plants --- Plant diseases --- Plant diseases --- plant requirements --- plant requirements --- Chemical and pharmacological phenomena --- Crops, agricultural --- Models, theoretical --- Chemical and pharmacological phenomena --- Crops, agricultural --- Models, theoretical
Choose an application
This book presents recently discovered design principles that govern the structure and behavior of biological networks such as gene circuits, highlighting simple, recurring circuit elements that make up the network. It provides a quantitative theory for which circuits are found in a given environment and a mathematical framework for understanding and even designing biological circuits. The book requires only basic mathematics and includes a review of the necessary background material. It fills a significant need for a textbook and introduction to the concepts, principles, and mathematical tools that will form the basis of future developments in the field. An Introduction to Systems Biology: Design Principles of Biological Circuits builds a solid foundation for the intuitive understanding of general principles. It encourages the reader to ask why a system is designed in a particular way and then proceeds to answer with simplified models. ÂExplains the basic circuitry in transcription regulation, signal transduction, and developmental networks ÂIncludes examples ranging from bacterial chemotaxis through developmental patterning and neuronal circuits to immune recognition ÂExamines the principle of robustness ÂDetails how constrained evolutionary optimization can be used to understand optimal circuit design ÂConsiders how kinetic proofreading and other mechanisms can minimize errors made in biological information-processing ÂIncludes solved problems after each chapter that detail topics not discussed in the main text Thorough and accessible, this book presents the design principles of biological systems, and highlights the recurring circuit elements that make up biological networks. It provides a simple mathematical framework which can be used to understand and even design biological circuits. The text avoids specialist terms, focusing instead on several well-studied biological systems that concisely demonstrate key principles.
Biomathematics. Biometry. Biostatistics --- Mathematical statistics --- Computational biology --- Biological systems --- Bio-informatique --- Systèmes biologiques --- Mathematical models --- Modèles mathématiques --- Systems biology --- Cellule --- cells --- Biologie --- biology --- Développement biologique --- biological development --- Réseau de neurones --- Neural networks --- Mécanisme chimiotactique --- Chemotaxis --- Facteur de transcription --- Transcription factors --- Immunogénétique --- Immunogenetics --- Expression des gènes --- gene expression --- Biosystems --- Systems, Biological --- Biology --- System theory --- Philosophy --- Computational biology. --- Systems biology. --- Basic Sciences. Biology --- Mathematical models. --- Biosystematics --- Biosystematics. --- Systèmes biologiques --- Modèles mathématiques --- Bioinformatics --- Molecular biology --- Biological systems - Mathematical models
Choose an application
Vegetables --- Meloidogyne chitwoodi --- Développement biologique --- biological development --- Cycle de développement --- life cycle --- Lutte antinématode --- nematode control --- Belgium --- 632.6 --- 595.132 --- 635.132 --- 635.652 --- Animals injurious to plants (except Insecta) --- Nematodes. Roundworms. Threadworm. Eelworm. Vinegar eel. Gapeworm. Hookworm --- Carrot. Daucus carota --- French bean. Green beans. Haricot beans. Phaseolus vulgaris --- Theses --- 635.652 French bean. Green beans. Haricot beans. Phaseolus vulgaris --- 595.132 Nematodes. Roundworms. Threadworm. Eelworm. Vinegar eel. Gapeworm. Hookworm --- 632.6 Animals injurious to plants (except Insecta)
Choose an application
Bambou --- Bamboos --- Calamus (palmae) --- Daemonorops --- Développement biologique --- biological development --- Taxonomie --- taxonomy --- Distribution géographique --- Geographical distribution --- Pratique culturale --- Cultivation --- Maladie des plantes --- Plant diseases --- Ravageur des plantes --- pests of plants --- Plantation forestière --- Forest plantations --- Plante pour construction --- Structural crops --- Plante à fibres --- Fibre crops --- Industrie de pâte et papier --- Pulp and paper industry --- Meuble --- Furniture --- Asie --- Asia --- ETH Ethnobotany & Economic botany --- economic botany --- economic plants --- Bambuseae --- Poaceae --- Gramineae --- rattan --- Palmae --- forest resources --- sustainable development --- international
Choose an application
Cell Cycle Control and Plant Development commences with an introductory chapter and is broadly divided into two parts. Part 1 details the basic cell machinery, with chapters covering cyclin-dependent kinases (CDKs), cyclins, CDK inhibitors, proteolysis, CDK phosphorylation, and E2F/DP transcription factors. Part 2, which describes the cell cycle and plant development, covers cell cycle activation, cell cycle control during leaf development, endoreduplication, the cell cycle and trichome, fruit and endosperm development, the hormonal control of cell division and environmental stress, and cell cycle exit.
Plant cell cycle. --- Cyclin-dependent kinases. --- Plant cells and tissues --- Plantes --- Kinases dépendantes des cyclines --- Growth --- Regulation. --- Cycle cellulaire --- Cellules et tissus --- Croissance --- Régularisation --- Plant cell cycle --- Cyclin-dependent kinases --- Regulation --- Plante --- plants --- Développement biologique --- biological development --- Différenciation cellulaire --- Cell differentiation --- Développement saisonnier --- Seasonal development --- Physiologie végétale --- Plant physiology --- Phosphorylation --- Transcription --- transcription --- Expression des gènes --- gene expression --- Mécanisme de défense --- Defence mechanisms --- Protéine recombinante --- Recombinant proteins --- Auxine --- Auxins --- 581.17 --- 581.14 --- Physiology of the cell --- Development --- 581.14 Development --- 581.17 Physiology of the cell --- Kinases dépendantes des cyclines --- Régularisation --- Plant tissues --- Cells --- Plant anatomy --- Tissues --- Biological rhythms in plants --- Cell cycle --- CDK proteins --- Cyclin-dependent protein kinases --- Protein kinases --- Growth&delete& --- transcription. --- Plant cells and tissues - Growth - Regulation
Listing 1 - 7 of 7 |
Sort by
|