Overexpression of alfalfa mitochondrial HSP23 in prokaryotic and eukaryotic model systems confers enhanced tolerance to salinity and arsenic stress |
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Authors: | Ki-Won Lee Joon-Yung Cha Kyung-Hee Kim Yong-Goo Kim Byung-Hyun Lee Sang-Hoon Lee |
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Institution: | (1) Grassland and Forages Division, National Institute of Animal Science, Rural Development Administration, Cheonan, 330-801, Korea;(2) Division of Applied Life Science (BK21 Program), Gyeongsang National University, Jinju, 600-701, Korea; |
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Abstract: | The cloning and characterization of a gene (MsHSP23) coding for a heat shock protein in alfalfa in a prokaryotic and model plant system is described. MsHSP23 contains a 633 bp ORF encoding a polypeptide of 213 amino acids and exhibits greater sequence similarity to mitochondrial
sHSPs from dicotyledons than to those from monocotyledons. When expressed in bacteria, recombinant MsHSP23 conferred tolerance
to salinity and arsenic stress. Furthermore, MsHSP23 was cloned in a plant expressing vector and transformed into tobacco, a eukaryotic model organism. The transgenic plants
exhibited enhanced tolerance to salinity and arsenic stress under ex vitro conditions. In comparison to wild type plants, the transgenic plants exhibited significantly lower electrolyte leakage. Moreover,
the transgenic plants had superior germination rates when placed on medium containing arsenic. Taken together, these overexpression
results imply that MsHSP23 plays an important role in salinity and arsenic stress tolerance in transgenic tobacco. This approach could be useful to
develop stress tolerant crops including forage crops. |
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