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      Generation and analysis of 9792 EST sequences from cold acclimated oat, Avena sativa

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          Abstract

          Background

          Oat is an important crop in North America and northern Europe. In Scandinavia, yields are limited by the fact that oat cannot be used as a winter crop. In order to develop such a crop, more knowledge about mechanisms of cold tolerance in oat is required.

          Results

          From an oat cDNA library 9792 single-pass EST sequences were obtained. The library was prepared from pooled RNA samples isolated from leaves of four-week old Avena sativa (oat) plants incubated at +4°C for 4, 8, 16 and 32 hours. Exclusion of sequences shorter than 100 bp resulted in 8508 high-quality ESTs with a mean length of 710.7 bp. Clustering and assembly identified a set of 2800 different transcripts denoted the Avena sativa cold induced UniGene set (AsCIUniGene set). Taking advantage of various tools and databases, putative functions were assigned to 1620 (58%) of these genes. Of the remaining 1180 unclassified sequences, 427 appeared to be oat-specific since they lacked any significant sequence similarity (Blast E values > 10 -10) to any sequence available in the public databases. Of the 2800 UniGene sequences, 398 displayed significant homology (BlastX E values ≤ 10 -10) to genes previously reported to be involved in cold stress related processes. 107 novel oat transcription factors were also identified, out of which 51 were similar to genes previously shown to be cold induced. The CBF transcription factors have a major role in regulating cold acclimation. Four oat CBF sequences were found, belonging to the monocot cluster of DREB family ERF/AP2 domain proteins. Finally in the total EST sequence data (5.3 Mbp) approximately 400 potential SSRs were found, a frequency similar to what has previously been identified in Arabidopsis ESTs.

          Conclusion

          The AsCIUniGene set will now be used to fabricate an oat biochip, to perform various expression studies with different oat cultivars incubated at varying temperatures, to generate molecular markers and provide tools for various genetic transformation experiments in oat. This will lead to a better understanding of the cellular biology of this important crop and will open up new ways to improve its agronomical properties.

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          Most cited references48

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            DNA-binding specificity of the ERF/AP2 domain of Arabidopsis DREBs, transcription factors involved in dehydration- and cold-inducible gene expression.

            DRE/CRT is a cis-acting element that is involved in gene expression responsive to drought and low-temperature stress in higher plants. DREB1A/CBF3 and DREB2A are transcription factors that specifically bind to DRE/CRT in Arabidopsis. We precisely analyzed the DNA-binding specificity of DREBs. Both DREBs specifically bound to six nucleotides (A/GCCGAC) of DRE. However, these proteins had different binding specificities to the second or third nucleotides of DRE. Gel mobility shift assay using mutant DREB proteins showed that the two amino acids, valine and glutamic acid conserved in the ERF/AP2 domains, especially valine, have important roles in DNA-binding specificity. In the Arabidopsis genome, 145 DREB/ERF-related proteins are encoded. These proteins were classified into five groups-AP-2 subfamily, RAV subfamily, DREB subfamily, ERF subfamily, and others. The DREB subfamily included three novel DREB1A- and six DREB2A-related proteins. We analyzed expression of novel genes for these proteins and discuss their roles in stress-responsive gene expression.
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              ICE1: a regulator of cold-induced transcriptome and freezing tolerance in Arabidopsis.

              Cold temperatures trigger the expression of the CBF family of transcription factors, which in turn activate many downstream genes that confer chilling and freezing tolerance to plants. We report here the identification of ICE1 (inducer of CBF expression 1), an upstream transcription factor that regulates the transcription of CBF genes in the cold. An Arabidopsis ice1 mutant was isolated in a screen for mutations that impair cold-induced transcription of a CBF3 promoter-luciferase reporter gene. The ice1 mutation blocks the expression of CBF3 and decreases the expression of many genes downstream of CBFs, which leads to a significant reduction in plant chilling and freezing tolerance. ICE1 encodes a MYC-like bHLH transcriptional activator. ICE1 binds specifically to the MYC recognition sequences in the CBF3 promoter. ICE1 is expressed constitutively, and its overexpression in wild-type plants enhances the expression of the CBF regulon in the cold and improves freezing tolerance of the transgenic plants.
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                Author and article information

                Journal
                BMC Plant Biol
                BMC Plant Biology
                BioMed Central (London )
                1471-2229
                2005
                1 September 2005
                : 5
                : 18
                Affiliations
                [1 ]Department of Cell and Molecular Biology, Göteborg University, Box 462, 403 20 Göteborg, Sweden
                [2 ]Department of Computer Science, Högskolan i Skövde, Box 408, 541 28 Skövde, Sweden
                Article
                1471-2229-5-18
                10.1186/1471-2229-5-18
                1236939
                16137325
                12b28efd-1adc-4466-9b2b-a262fd282b87
                Copyright © 2005 Bräutigam et al; licensee BioMed Central Ltd.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 11 March 2005
                : 1 September 2005
                Categories
                Research Article

                Plant science & Botany
                Plant science & Botany

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