04439nam 2201141z- 450 991055754000332120210501(CKB)5400000000044207(oapen)https://directory.doabooks.org/handle/20.500.12854/68953(oapen)doab68953(EXLCZ)99540000000004420720202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierChromatin, Epigenetics and Plant PhysiologyBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (190 p.)3-03936-028-0 3-03936-029-9 This eBook focuses on current progress in understanding the role of chromatin structure, its modifications and remodeling in developmental and physiological processes. Eukaryotic genomes are packed into the supramolecular nucleoprotein structure of chromatin. Therefore, our understanding of processes such as DNA replication and repair, transcription, and cell differentiation requires an understanding of the structure and function of chromatin. While the nucleotide sequence of the DNA component of chromatin constitutes the genetic material of the cell, the other chromatin components (and also modifications of bases in the DNA itself) participate in so-called epigenetic processes. These processes are essential, e.g., in ontogenesis or adaptation to environmental changes. Therefore, epigenetics is particularly important (and elaborated) in plants that show a high developmental plasticity and, as sessile organisms, display an enormous capacity to cope with environmental stress. In these processes, epigenetic mechanisms show a crosstalk with plant signaling pathways mediated by phytohormones and redox components. You are welcome to read examples of current research and review articles in this hot research topic.Biology, life sciencesbicsscResearch & information: generalbicssc3D-FISHantioxidantsArabidopsisArabidopsis thalianaATP-dependent chromatin remodelingauxinbarleycentromerechromatinchromatin remodelingchromatin remodeling factorchromosomal rearrangementscircRNAscircular chromosome conformation capturecold responsecuticular waxDNA methylationdrought toleranceepigenetic modificationsepigenetic regulationepigeneticsgene expressiongene regulationgenome architectureGO enrichmenthistonehistone modificationhistone variant H2A.ZhybridINO80/SWR1 complexesintrogressionjasmonic acidkinetochoresKNL2leaf developmentleaf widthmass spectrometrymiRNA decoysn/anarrow leafnitric oxideNuA4 complexnucleusOsCHR4plant developmentpost-translational modificationsprotein interactionreactive oxygen speciesredox regulationriceRNA-seqryesodium butyrateSWI/SNFSwi3-like proteinsSWI3Csynthetic biologyT-DNAtomatotranscriptional control of gene expressiontransgenictrichostatin AwheatBiology, life sciencesResearch & information: generalFajkus Jiříedt1322922Fojtová MiloslavaedtFajkus JiříothFojtová MiloslavaothBOOK9910557540003321Chromatin, Epigenetics and Plant Physiology3035267UNINA