Publications (2)5.46 Total impact
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Article: Ectopic expression of a LEA protein gene TsLEA1 from Thellungiella salsuginea confers salt-tolerance in yeast and Arabidopsis.
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ABSTRACT: Thellungiella salsuginea is a valuable halophytic genetic model plant in the Brassicaceae family. Based on previous construction of a salt treated Thellungiella cDNA library carried by pGAD-GH shuttle vector which could directly express in Saccharomyces cerevisiae, a putative salt-tolerance gene TsLEA1 was identified by large-scale stress-tolerance screen in salt sensitive yeast strain G19. The longest 483 bp ORF of TsLEA1 cDNA coding a 160 amino acids protein with a predicted conserved pfam domain shared an 89% amino acid sequence similarity to Arabidopsis LEA group 4 proteins. The transcription level of TsLEA1 gene in T. salsuginea seedlings increased upon salt treatment and its transcript accumulated more in roots than in aerial parts. The ability of the TsLEA1 to facilitate salinity tolerance was analyzed in yeast and transgenic Arabidopsis. It was confirmed that TsLEA1 exhibits conserved salt tolerance in plant as well as in yeast. The results suggested that the TsLEA1 may participate in response to stresses in over expressed circumstance, protecting yeast and plant cells under stress conditions.Molecular Biology Reports 09/2011; 39(4):4627-33. · 2.93 Impact Factor -
Article: Comparison analysis of transcripts from the halophyte Thellungiella halophila.
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ABSTRACT: The Brassicaceae family halophyte Thellungiella halophila has a high salinity tolerance and serves as a valuable halophytic genetic model plant with experimental convenience similar to Arabidopsis thaliana. A cDNA library of Thellungiella was generated from salt-treated seedlings including rosettes and roots. More than 1 000 randomly selected clones were sequenced and 946 expressed sequence tags (ESTs) were generated. The accession numbers of our EST data are available online in the GenBank database from EC598928 to EC599965. In total 679 unique clusters were assembled, and 632 (93%) had BLASTX hits in the nr databases and 7% are Thellungiella unique. According to the Gene Ontology (GO) hierarchy, 385 of 679 unigenes were categorized. Compared with public Arabidopsis microarray data, our results provide more potential salt tolerance genes in Thellungiella. These results will provide a broader coverage into Thellungiella transcriptome and benefit the discovery of salt tolerance related genes.Journal of Integrative Plant Biology 11/2008; 50(10):1327-35. · 2.53 Impact Factor
