EAN: | 9783319671550 |
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Auflage: | 001 |
Sachgruppe: | Biologie |
Sprache: | Englisch |
Seitenzahl: | 476 |
Produktart: | Gebunden |
Herausgeber: | Hakeem, Khalid Rehman Malik, Adeel Ozturk, Munir Vardar-Sukan, Fazilet |
Veröffentlichungsdatum: | 29.11.2017 |
Untertitel: | Decoding the Phyta |
Schlagworte: | Agrarwissenschaft - Agrargeografie Agrarwissenschaften Bioinformatik Biologie / Molekularbiologie Botanik Botanik und Pflanzenwissenschaften High-throughputdata; bioticandabioticstress; cropplants; appliedbioinformatics; Genomemining; oxidativestresstolerance IT Informatik / Bioinformatik Informationstechnologie Molekularbiologie Technologie / Informationstechnologie |
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This book: (i) introduces fundamental and applied bioinformatics research in the field of plant life sciences; (ii) enlightens the potential users towards the recent advances in the development and application of novel computational methods available for the analysis and integration of plant -omics data; (iii) highlights relevant databases, softwares, tools and web resources developed till date to make ease of access for researchers working to decipher plant responses towards stresses; and (iv) presents a critical cross-talks on the available high-throughput data in plant research. Therefore, in addition to being a reference for the professional researchers, it is also of great interest to students and their professors. Considering immense significance of plants for all lives on Earth, the major focus of research in plant biology has been to: (a) select plants that best fit the purposes of human, (b) develop crop plants superior in quality, quantity and farming practiceswhen compared to natural (wild) plants, and (c) explore strategies to help plants to adapt biotic and abiotic/environmental stress factors. Accordingly the development of novel techniques and their applications have increased significantly in recent years. In particular, large amount of biological data have emerged from multi-omics approaches aimed at addressing numerous aspects of the plant systems under biotic or abiotic stresses. However, even though the field is evolving at a rapid pace, information on the cross-talks and/or critical digestion of research outcomes in the context of plant bioinformatics is scarce. ¿Plant Bioinformatics: Decoding the Phytä is aimed to bridge this gap.