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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
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In recent years, the study of the plant cell cycle has become of major interest, not only to scientists working on cell division sensu strictu , but also to scientists dealing with plant hormones, development and environmental effects on growth. The book The Plant Cell Cycle is a very timely contribution to this exploding field. Outstanding contributors reviewed, not only knowledge on the most important classes of cell cycle regulators, but also summarized the various processes in which cell cycle control plays a pivotal role. The central role of the cell cycle makes this book an absolute must for plant molecular biologists.
Plant cell cycle. --- Botany. --- Plant science. --- Cell biology. --- Biochemistry. --- Plant physiology. --- Plant Sciences. --- Cell Biology. --- Biochemistry, general. --- Plant Physiology. --- Botany --- Plants --- Physiology --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Cell biology --- Cellular biology --- Cells --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Natural history --- Composition --- Floristic botany
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De permafrost verdwijnt, de zeespiegel stijgt, er zijn steeds meer en hevigere bosbranden, maar als we wereldwijd samenwerken en inzetten op technologie, kunnen we het tij nog keren.Dirk Inzé is een topwetenschapper en internationale autoriteit op het vlak van plantenbiotechnologie. Aan de hand van de meest recente cijfers schept hij een genuanceerd beeld van de huidige toestand van ons klimaat. Hij doorbreekt mythes, biedt nieuwe perspectieven en beantwoordt prangende vragen als 'Moeten we met zijn allen vegetariër worden?', 'Komt onze voedselvoorziening in het gedrang?' en 'Zijn we niet met te veel?'.Bovenal focust De aarde draait door op oplossingen, gebaseerd op de jarenlange, wetenschappelijke ervaring van de auteur. Het belicht de verschillende aspecten van de klimaatproblematiek, en biedt inzicht in de manier waarop verandering mogelijk is. Zodat onze aarde kan blijven draaien.https://www.academiapress.be/nl/de-aarde-draait-door
Environmental protection. Environmental technology --- Klimaatbeleid --- Klimaatverandering --- Natuurramp --- Toekomstvisie --- Groenvoorziening --- Ruimtelijke ordening --- Voedselvoorziening --- CO2-uitstoot --- Milieubeleid --- energiebeheer (technologie) --- technologie --- biotechnologie --- klimaat
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Plants depend on physiological mechanisms to combat adverse environmental conditions, such as pathogen attack, wounding, drought, cold, freezing, salt, UV, intense light, heavy metals and SO2. Many of these cause excess production of active oxygen species in plant cells. Plants have evolved complex defense systems against such oxidative stress, and biologists are now studying these mechanisms in-depth. Oxidative Stress in Plants explores how various biotic and abiotic environmental stress conditions produce oxygen radicals. It explains the biochemistry and molecular biology of both non-enzymatic (vitamin C, glutathione) and enzymatic systems which eliminate active oxygen species.
Oxidation, Physiological. --- Plant defenses. --- Oxidation, Physiological --- Plant defenses --- Defense mechanisms, Plant --- Defenses, Plant --- Mechanisms, Plant defense --- Plant defense mechanisms --- Plant self-protection --- Plants --- Self-defense in plants --- Self-protection in plants --- Plant ecology --- Dangerous plants --- Poisonous plants --- Biological oxidation --- Oxidation, Biological --- Physiological oxidation --- Biochemistry --- Defenses
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Histology. Cytology --- Plant physiology. Plant biophysics --- Agriculture. Animal husbandry. Hunting. Fishery --- Biochemical engineering --- Biotechnology --- systematische plantkunde --- biochemie --- landbouw --- biotechnologie --- cytologie --- histologie --- planten
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It is our utmost pleasure to present a new book on tobacco BY-2 cells, Tobacco BY-2 Cells: From Cellular Dynamics to Omics, as the 58th volume in the book series Biotechnology in Agriculture and Forestry (BAF). It represents an ext- sion of the previous book Tobacco BY-2 Cells,vol. 53ofthe BAF. Moreover, the content is rather different from the latter and includes new topics, gleaned from the First International Symposium on Tobacco BY-2 Cells held at the Plant Science Center of the RIKEN, Yokohama, organized by Nagata, Matsuoka and Inze, in September 2004. To this symposium came more than 200 people from different parts of the world to discuss issues. Although most of the contributors to thepreviousvolumeof Tobacco BY-2 Cells gave talks on their subjects, there were many other speakers who presented new topics and approaches. So we enjoyed the symposium very much. Thus we decided to compile a new volume on tobacco BY-2 cells which includes these new topics. In addition, towards the end of the symposium, our common understanding was that the tobacco BY-2 cell system is still important in plant biology, in particular for studying the dynamic features of plant cells. We hope this volume is useful for plant biologists. Contents of the book are as follows: in Chapters I. 1-I. 6, various aspects of the cell cycle and cellular dynamics using BY-2 cells are described. In Ch- ters II. 1-II.
Histology. Cytology --- Plant physiology. Plant biophysics --- Agriculture. Animal husbandry. Hunting. Fishery --- Biochemical engineering --- Biotechnology --- systematische plantkunde --- biochemie --- landbouw --- biotechnologie --- cytologie --- histologie --- planten
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Een van de grootste uitdagingen in de 21ste eeuw is het op een meer duurzame wijze voeden van een nog steeds groeiende wereldbevolking. Ggo-technologie wordt in deze context vaak genoemd, vreemd genoeg enerzijds als deel van de oplossing maar anderzijds ook als obstakel dat een oplossing in de weg staat. De reden voor deze tegenstelling is dat de discussie meestal over andere elementen gaat dan de ggo’s zelf. Ze gaat bijvoorbeeld over monoculturen, herbicidengebruik of over negatieve gevolgen van de ggo-regelgeving. De regelgeving duwt de technologie immers in handen van kapitaalkrachtige multinationale bedrijven en beperkt in bepaalde gevallen het aantal rassen dat op de markt kan worden gebracht.Bovendien zetten nieuwe technieken zoals genome editing de regelgeving onder druk. In veel gevallen leiden deze nieuwe technieken tot planten die ook als gevolg van klassieke veredeling kunnen ontstaan. Als we een grotere diversiteit aan zaadbedrijven en aan robuuste rassen willen om de landbouw duurzamer te maken, dan is het hoog tijd om wat we in de afgelopen decennia over ggo-technologie hebben geleerd in de Europese regelgeving te verwerken.Dit standpunt geeft inzicht in de ggo-technologie en -regelgeving en besluit met aanbevelingen voor toekomstig beleid.
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