Zobrazeno 1 - 10
of 35
pro vyhledávání: '"Jeffrey S. Skinner"'
Autor:
Elizabeth Etherington, Jeffrey S. Skinner, Steven H. Strauss, Cathleen Ma, Richard Meilan, Amy M. Brunner, Estefania Elorriaga
Publikováno v:
Tree Genetics & Genomes. 10:1583-1593
The field performance of genetic containment tech- nologies-considered important for certain uses of transgenic treesinforestry-ispoorlyknown.Wetestedtheefficiencyofa barnase gene driven by the TA29 tapetum-dominant promoter for influencing growth ra
Autor:
Rishikesh P. Bhalerao, David Jonsén, Jeffrey S. Skinner, Nathalie Druart, Glenn T. Howe, Lars Resman, Madeleine Englund, Henrik Antti, Tony H. H. Chen, Jarmo Schrader, Andreas Sjödin
Publikováno v:
Plant Physiology. 154:1294-1303
Short days (SDs) in autumn induce growth cessation, bud set, cold acclimation, and dormancy in trees of boreal and temperate forests, and these responses occur earlier in northern than in southern genotypes. Nevertheless, we know little about whether
Autor:
Jeffrey S. Skinner, Alfred H. Soeldner, Tony H. H. Chen, María Teresa Pino, Zoran Jeknić, Michael F. Thomashow, Patrick M. Hayes
Publikováno v:
Plant, Cell & Environment. 31:393-406
We studied the effect of ectopic AtCBF over-expression on physiological alterations that occur during cold exposure in frost-sensitive Solanum tuberosum and frost-tolerant Solanum commersonii. Relative to wild-type plants, ectopic AtCBF1 over-express
Publikováno v:
The Plant Journal. 51:308-321
Summary Genetic analyses have identified two loci in wheat and barley that mediate the capacity to overwinter in temperate climates. One locus co-segregates with VRN-1, which affects the vernalization requirement. This locus is known as Frost resista
Autor:
Caiping Ma, Steven H. Strauss, Hao Wei, Harish Gandhi, Amy M. Brunner, Jeffrey S. Skinner, Richard Meilan
Publikováno v:
Molecular Breeding. 19:69-85
We tested the efficacy of an attenua- tion system developed to preclude the deleteri- ous effects of floral promoter::cytotoxin genes on vegetative growth of transgenic sterile plants. We tested the promoter (2.6 kb 5¢ region) of the poplar LEAFY ge
Autor:
Vaughan Hurry, Norman P. A. Huner, Rengong Meng, Jeffrey S. Skinner, Yongjian Chang, Catherine Benedict, Rishikesh P. Bhalerao, Tony H. H. Chen, Chad E. Finn
Publikováno v:
Plant, Cell and Environment. 29:1259-1272
The meristematic tissues of temperate woody perennials must acclimate to freezing temperatures to survive the winter and resume growth the following year. To determine whether the C-repeat binding factor (CBF) family of transcription factors contribu
Publikováno v:
Tree Physiology. 26:401-410
Transgenic sterility is a desirable trait for containment of many kinds of transgenes and exotic species. Genetically engineered floral sterility can be imparted by expression of a cytotoxin under the control of a predominantly floral-tissue-specific
Autor:
Michael F. Thomashow, Eric J. Stockinger, Tony H. H. Chen, Jeffrey S. Skinner, Patrick M. Hayes, L. Marquez-Cedillo, Jarislav von Zitzewitz, P. Szucs, Tanya Filichkin
Publikováno v:
Theoretical and Applied Genetics. 112:832-842
We investigated the allelic nature and map locations of Hordeum vulgare (barley) homologs to three classes of Arabidopsis low temperature (LT) regulatory genes—CBFs, ICE1, and ZAT12—to determine if there were any candidates for winterhardiness-re
Autor:
P. Szucs, Michael F. Thomashow, Patrick M. Hayes, Eric J. Stockinger, Keenan Amundsen, L. Marquez-Cedillo, Tanya Filichkin, Jeffrey S. Skinner, Tony H. H. Chen, von Zitzewitz J
Publikováno v:
Plant Molecular Biology. 59:533-551
CBFs are key regulators in the Arabidopsis cold signaling pathway. We used Hordeum vulgare (barley), an important crop and a diploid Triticeae model, to characterize the CBF family from a low temperature tolerant cereal. We report that barley contain
Autor:
Lang Laszlo, K. Mészáros, P. Szucs, Jeffrey S. Skinner, T. Filichkina, Ildikó Karsai, Patrick M. Hayes, Zoltán Bedo
Publikováno v:
Theoretical and Applied Genetics. 110:1458-1466
With the aim of dissecting the genetic determinants of flowering time, vernalization response, and photoperiod sensitivity, we mapped the candidate genes for Vrn-H2 and Vrn-H1 in a facultative x winter barley mapping population and determined their r