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After decades of dominance of genetics and genomics, the importance of structural biology is growing exponentially in the field of plant biology. The main objectives of this new book series is to "demystify" structural biology for plant researchers and to provide important insights into the basic molecular mechanisms underlying plant development through the diverse approaches utilized by structural biologists. The book series starts with a theme dedicated to hormonal signaling that has benefited from the application of structural biology. "Plant Structural Biology: Hormonal Regulations"…mehr

Produktbeschreibung
After decades of dominance of genetics and genomics, the importance of structural biology is growing exponentially in the field of plant biology. The main objectives of this new book series is to "demystify" structural biology for plant researchers and to provide important insights into the basic molecular mechanisms underlying plant development through the diverse approaches utilized by structural biologists. The book series starts with a theme dedicated to hormonal signaling that has benefited from the application of structural biology. "Plant Structural Biology: Hormonal Regulations" provides up-to-date knowledge of the structural aspects of hormonal signal recognition, signal transduction, hormonal control of downstream regulatory pathways and hormonal crosstalk. The most distinctive features of this book as well as future titles is/will be to provide overview of cutting-edge research in the field of plant structural biology, and to serve as a compendium of various approaches that could be applied to problems being solved in modern plant biology. Last but not least, we hope this book will facilitate and broaden the community of (not only) plant scientists who are interested in structural biology approaches and tools. For these reasons, the style of this series is concise and general, in order to avoiding unnecessary details. Explanatory boxes describing the basics of specific approaches (e.g. X-ray crystallography, NMR, SAXS, molecular dynamics simulations, etc.) are included.


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Autorenporträt
Jan Hejatko obtained his Ph.D. in genetics and molecular biology at Masaryk University, Brno, Czech Republic under the supervision of Bretislav Brzobohaty and in the Max-Planck Institute for Plant Breeding, Cologne, Germany in the group of Klaus Palme. He continues his work in the field of hormonal signaling and hormonal regulation of plant development as a research group leader and associated professor at CEITEC - Central European Institute of Technology and National Centre for Biomolecular Research, Faculty of Science, Masaryk University.  He is mainly interested in multi-step phosphorelay signaling, signal recognition, specificity and signal integration¿ in plants. Toshio Hakoshima obtained his Ph.D. in physical chemistry and pharmaceutical sciences at Osaka University, Suita, Japan, followed by postdoctoral research work on structural biology supervised by Alexander Rich at Massachusetts Institute of Technology. In 1982, he joined the Osaka University faculty and continued his work on molecular recognition in protein-nucleic acid systems as an associated professor. In 1994, he moved to Nara Institute of Science and Technology as a professor of structural biology. He was promoted to the Dean of Graduate School of Biological Sciences (2013-2016) and then Executive Director/Vice President of the institute since 2017. He is interested in molecular recognition in signal transduction in the fields of medical science and plant biology and protein engineering of enzymes producing bioplastics.