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W2070325371 abstract "Three novel glutathione S-transferase (GSTs) cDNAs were cloned from a disk abalone (Haliotis dicus discus) cDNA library. Multiple alignment and phylogenetic analysis of three GSTs revealed that their closest relationship is with insect sigma GSTs. Recombinant GSTs were over-expressed in Escherichia coli as soluble fusion proteins. HdGSTS1 and HdGSTS2 were active towards 1-chloro-2,4-dinitrobenzene and ethacrynic acid, whereas HdGSTS3 appeared to be a non-enzymatic GST. Two active GSTs had similar optimum conditions for enzymatic reaction at pH 8.0 and temperature of approximately 30 °C. Molecular modeling analysis of three GSTs implicates their diverse active sites as being responsible for their different enzymatic features. Three sigma GSTs had significantly different expression patterns and levels of expression in abalone tissues, indicating their different functions. After 48 h-exposure to three model marine pollutants, only HdGSTS1 exhibited a proper inducibility, exhibiting its good biomarker potential for organic contaminants in marine environment. In contrast, the other two sigma GSTs revealed a minor role in the response of pollutants exposure." @default.
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W2070325371 date "2008-11-01" @default.
W2070325371 modified "2023-10-06" @default.
W2070325371 title "Molecular cloning and characterization of three sigma glutathione S-transferases from disk abalone (Haliotis discus discus)" @default.
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W2070325371 cites W1581414347 @default.
W2070325371 cites W1812321387 @default.
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W2070325371 cites W1975424840 @default.
W2070325371 cites W1976035247 @default.
W2070325371 cites W1976829875 @default.
W2070325371 cites W1977643106 @default.
W2070325371 cites W1979666368 @default.
W2070325371 cites W1982088741 @default.
W2070325371 cites W1984605752 @default.
W2070325371 cites W1985110267 @default.
W2070325371 cites W1986904921 @default.
W2070325371 cites W1992528871 @default.
W2070325371 cites W1995533728 @default.
W2070325371 cites W2000042448 @default.
W2070325371 cites W2005576707 @default.
W2070325371 cites W2005579644 @default.
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W2070325371 cites W2019253568 @default.
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W2070325371 doi "https://doi.org/10.1016/j.cbpb.2008.07.012" @default.
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