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Cold Hardiness in Plants: Molecular Genetics, Cell Biology and Physiology

Edited By: THH Chen, M Uemura and S Fukikawa

CABI Publishing

Hardback | Oct 2006 | #155146 | ISBN: 0851990592
Availability: Usually dispatched within 6 days Details
NHBS Price: £79.99 $101/€95 approx

About this book

Based on papers from the 7th International Plant Cold Hardiness Seminar held in Japan in 2004, this book presents the latest research findings on plant freezing and chilling stress from major laboratories around the world. The chapters focus on various aspects of molecular genetics and the utilization of transgenic plants to further our understanding of plant cold hardiness at the molecular level. Topics covered include: vernalization genes in winter cereals; global analysis of gene networks to solve complex abiotic stress responses; control of growth and cold acclimation in silver birch and the effect of plasma membrane-associated proteins on acquisition of freezing tolerance in Arabidopsis thaliana.


Contents

Global Analysis of Gene Networks to Solve complex Abiotic Stress responses, K Shinozaki, RIKEN Tsukuba Institute, Japan and K Yamaguchi-Shinozaki, Japan International Research Center for Agricultural Sciences, Japan; The CBF Cold Response Pathways of Arabidopsis and Tomato, J T Vogel, Michigan State University, USA, D Cook, Mississippi State University, USA, S G Fowler and M F Thomashow, Michigan State University, USA; Barley Contains a Large CBF Gene Family Associated with Quantitative Cold Tolerance Traits, J S Skinner, J von Zitzewitz, L Marquez-Cedillo, T Filichkin, Oregon State University, USA, P Szucs, Agricultural Research Institute of the Hungarian Academy of Sciences, Hungary, K Amundsen, Michigan State University, USA, E Stockinger, Ohio State University, USA, M F Thomashow, Michigan State University, USA, T H H Chen, and P M Hayes, Oregon State University, USA; Structural Organization of Barley CBF Genes Coincident with QTLs for Cold Hardiness, E J Stockinger, H Cheng, Chinese Academy of Agricultural Sciences, China and J Skinner; The genetic basis of vernalization response in barley, L L D Cooper, Oregon State University, USA, J von Zitzewitz, J S Skinner, P Szucs, I Karsai, Agriculturtal Research Institute of the Hungarian Academy of Sciences, Hungary, E Francia, A M Stanca, Experimental Institute for Cereal Resources, Italy, N Pecchioni, Universita di Modena e Reggio Emilia, Italy, D A Laurie, John Innes Research Centre, UK T H H Chen, and P M Hayes; Vernalization Genes in Winter Cereals, N A Kane, J Danyluk, and F Sarhan, Universite du Quebec a Montreal, Canada; A Bulk Segregant Approach to Identify Genetic Polymorphisms Associated with Cold Tolerance in Alfalfa, Y Castonguay, J Cloutier, S Laberge, A Bertrand and R Michaud, Agriculture and Agri-Food Canada, Canada; Ectopic Over-expression of AtCBFI in Potato Enhances Freezing Tolerance, M T Pino, J S Skinner, Z Jeknic, E J Park, Oregon State University, USA, P M Hayes, and T H H Chen; Over-expression of a Heat-inducible apx Gene Confers Chilling Tolerance to Rice Plants, Y Sato, National Agricultural Research Center for Hokkaido Region, Japan, and H Saruyama, Hokkaido Green-Bio Institute, Japan; Physiological and Morphological Alterations Associated with Development of Freezing Tolerance in The Moss Physcomitrella patens, A Minami, M Nagao, Iwate University, Japan, K Arakawa, S Fujikawa, Hokkaido University and D Takezawa, Saitama University, Japan; Control of Growth and Cold Acclimation in Silver Birch, M K Aalto and E T Palva, Viikki Biocenter, Finland; The Role of the CBF-Dependent Signalling Pathway in Woody Perennials, C Benedict, Umea University, Sweden, J S Skinner, R Meng, Y Chang, Oregon State University, USA, R Bhalerao, Swedish University of Agricultural Sciences, Sweden, C Finn, USDA-ARS, USA, T H H Chen, V Hurry, Umea University, Sweden; Functional Role of Winter-accumulating Proteins from Mulberry Tree in adaptation to Winter-induced Stresses, S Fujikawa, N Ukaji, Hokkaido University, Japan, M Nagao, K Yamane, Hokkaido University, Japan, D Takezawa, and K Arakawa; The Role of Compatible Solutes in Plant Freezing Tolerance: A Case Study on Raffinose, D K Hincha, E Zuther, M Hundertmark, A G Heyer, Max-Planck-Institut fur Molekulare Pflanzenphysiologie, Germany; Dehydration in model membranes and protoplasts: contrasting effects at low, intermediate and high hydrations, K L Koster, University of South Dakota, USA, and G Bryant, RMIT University, Australia; Effect of Plasma Membrane-associated Proteins on Acquisition of Freezing Tolerance in Arabidopsis thaliana, Y Tominaga, Universite du Quebec a Montreal, Canada, C Nakagawara, Y Kawamura and M Uemura, Iwate University, Japan.

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