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杜鹃花物种间脱水素的变异性:一种25 kDa脱水素具有保守性且与不同物种的冷驯化相关。

Dehydrin variability among rhododendron species: a 25-kDa dehydrin is conserved and associated with cold acclimation across diverse species.

作者信息

Marian Calin O, Krebs Stephen L, Arora Rajeev

机构信息

Department of Biological Sciences, Florida State University, Tallahassee, FL 32306, USA.

The Holden Arboretum, 9500 Sperry Road, Kirtland, OH 44094, USA.

出版信息

New Phytol. 2004 Mar;161(3):773-780. doi: 10.1111/j.1469-8137.2003.01001.x.

DOI:10.1111/j.1469-8137.2003.01001.x
PMID:33873716
Abstract

•  Here we examine the accumulation pattern of dehydrins in non- vs cold-acclimated leaves of 21 species comprising two divergent groups of Rhododendron, Subgenus Hymenanthes and Subgenus Rhododendron. Individuals from five other Ericaceous genera were also evaluated in the same way. Quantitative comparisons of cold-inducibility of a 25-kDa dehydrin and cold acclimation ability in six Rhododendron species were also performed. •  Leaf freezing tolerance assay and dehydrin detection and quantification were performed as previously described. •  Eleven dehydrins, ranging from 25- to 73-kDa, were observed among the 21 species, and most were more abundant in winter-collected leaves than in summer-collected leaves. One dehydrin, a 25-kDa protein, was uniquely conserved across most (95%) of the species surveyed, and was absent only in R. brookeanum, a tropical species that may not be capable of cold acclimation. The 25-kDa dehydrin was also identified in Kalmia, a genus closely related to Rhododendron but not in four other less related Ericaceous genera. Comparison of dehydrin profiles in non- and cold-acclimated leaf tissue from six species (three very hardy, and three less hardy, species) indicated a close association (R  = 0.95) between relative changes in leaf freezing tolerance and 25-kDa dehydrin accumulation. •  The taxonomic and physiological comparisons suggest a central, but as yet unknown, function for the 25-kDa dehydrin in protecting rhododendron leaves from freezing injury.

摘要

• 在此,我们研究了21个物种(包括两个不同的杜鹃属类群,即常绿杜鹃亚属和杜鹃亚属)未冷驯化与冷驯化叶片中脱水素的积累模式。另外五个杜鹃花科属的个体也以同样的方式进行了评估。还对六个杜鹃物种中25 kDa脱水素的冷诱导性和冷驯化能力进行了定量比较。

• 叶片冻害耐受性测定以及脱水素的检测和定量如前所述进行。

• 在这21个物种中观察到了11种脱水素,分子量范围为25至73 kDa,且大多数在冬季采集的叶片中比在夏季采集的叶片中更为丰富。一种25 kDa的蛋白质脱水素在大多数(95%)被调查物种中独特保守,仅在可能无法进行冷驯化的热带物种布鲁克杜鹃中不存在。在与杜鹃属密切相关的山月桂属中也鉴定出了25 kDa脱水素,但在其他四个亲缘关系较远的杜鹃花科属中未发现。对六个物种(三个抗寒能力强的物种和三个抗寒能力弱的物种)未冷驯化和冷驯化叶片组织中脱水素谱的比较表明,叶片冻害耐受性的相对变化与25 kDa脱水素积累之间存在密切关联(R = 0.95)。

• 分类学和生理学比较表明,25 kDa脱水素在保护杜鹃叶片免受冻害方面具有核心但尚未明确的功能。

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