T
Tony H. H. Chen
Researcher at Oregon State University
Publications - 107
Citations - 8202
Tony H. H. Chen is an academic researcher from Oregon State University. The author has contributed to research in topics: Cold acclimation & Gene. The author has an hindex of 43, co-authored 104 publications receiving 7541 citations. Previous affiliations of Tony H. H. Chen include National Institute for Basic Biology, Japan.
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Alterations in ultrastructure and subcellular localization of Ca2+ in poplar apical bud cells during the induction of dormancy
TL;DR: Under the influence of SD photoperiods, there are alterations in subcellular Ca 2+ localization, and changes in ultrastructure of apical bud cells during the development of dormancy, which may lead to events associated with growth cessation and dormancy development in buds.
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Molecular genetic analysis of dormancy-related traits in poplars
TL;DR: It is concluded that molecular markers and QTL analyses can be used to study the genetics of dormancy-related traits, to design more effective breeding programs, and to provide new insights into tree physiology.
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Cloning and Functional Characterization of a Gene for Capsanthin-Capsorubin Synthase from Tiger Lily (Lilium lancifolium Thunb. ‘Splendens’)
Zoran Jeknić,Jeffrey T. Morré,Stevan Jeknić,Slađana Jevremović,Angelina Subotić,Tony H. H. Chen +5 more
TL;DR: Cloning of the Llccs gene should advance the understanding of the molecular and genetic mechanisms of the biosynthesis of κ-carotenoids in general and in the genus Lilium in particular, and will facilitate transgenic alterations of the colors of flowers and fruits of many plant species.
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Poplar Bark Storage Protein and a Related Wound-Induced Gene Are Differentially Induced by Nitrogen
TL;DR: Although both BSP and win4 appear to be involved in nitrogen storage, the data suggest that BSP is probably the primary protein involved in both seasonal and short-term nitrogen storage in poplar, and suggest that nitrogen cycling and storage inpoplar could involve a two-component system.
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Regeneration of Freezing-Tolerant Spring Wheat (Triticum aestivum L.) Plants from Cryoselected Callus
Edward J. Kendall,Javed A. Qureshi,Kutty K. Kartha,Nick Leung,Normand Chevrier,Karen Caswell,Tony H. H. Chen +6 more
TL;DR: The results demonstrate that freezing tolerant callus can be isolated from a heterogeneous population by cryoselection, and factors that contribute to hardiness at the callus level are biologically stable and can contribute to tolerance at the whole plant level.