Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/25766
Title: Environmental regulation of a 25 kDa dehydrin in relation to Rhododendron cold acclimation
Authors: Marian, Calin Ovidiu
Krebs, Stephen L.
Arora, Rajeev
Uludağ Üniversitesi/Ziraat Fakültesi/Bahçe Bitkileri Bölümü.
Eriş, Atilla
6602612385
Keywords: Agriculture
Rhododendron
Cold hardiness
Freezing tolerance
Photoperiod
Betula-pubescens ehrh
Freezing-tolerance
Cornus-stolonifera
Seasonal-changes
25-kDa dehydrin
Water relations
Lea proteins
Hardiness
Dehydration
Temperature
Issue Date: May-2004
Publisher: American Society for Horticultural Science
Citation: Marian, C. O. vd. (2004). “Environmental regulation of a 25 kDa dehydrin in relation to Rhododendron cold acclimation”. Journal of the American Society for Horticultural Science, 129(3), 354-359.
Abstract: The influence of photoperiod and temperature on the seasonal (fall to winter) cold acclimation and accumulation of a 25 kDa dehydrin,in Rhododendron 'Chionoides' was studied by exposing two groups of plants each in the greenhouse or outdoors to either a natural photoperiod (or short days) or an extended photoperiod (or long days) regime. Results suggest that the shortening daylength alone is sufficient to trigger both the first stage of cold acclimation and concomitant 25 kDa dehydrin induction. Exposure of the plants to natural photoperiod and temperatures induced the greatest cold hardiness and 25 kDa accumulation, while exposure to extended photoperiods (long days) and warmer temperatures (in the greenhouse) failed to induce any significant freezing tolerance in leaves. Whereas short days trigger the cold acclimation process initially, low inductive temperatures can eventually replace the photoperiod stimulus. Seasonal accumulation of 25 kDa dehydrin, on the other hand, appears to be predominantly effected by short photoperiods. Data indicated that the leaf water content of outdoor plants maintained under natural photoperiod was lower than that of plants grown under extended photoperiod. This was also true for the greenhouse plants at the first (September) and the last (January) sampling. It is hypothesized that early 25 kDa dehydrin accumulation may be due to short-day-induced cellular dehydration. Accumulation of two other dehydrins of 26 kDa and 32 kDa molecular masses does not appear to be associated with short day (SD)-induced first stage of cold acclimation. Results show that their accumulation may be regulated by low, subfreezing temperatures and may be associated with the second and/or third stage of cold acclimation of 'Chionoides' rhododendron leaves.
URI: https://doi.org/10.21273/JASHS.129.3.0354
https://journals.ashs.org/jashs/view/journals/jashs/129/3/article-p354.xml
http://hdl.handle.net/11452/25766
ISSN: 0003-1062
Appears in Collections:Scopus
Web of Science

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