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x * 28000, isoform DHAR1, SDS-PAGE
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x * 32000, isoform DHAR2, SDS-PAGE
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x * 23400, calculated from amino acid sequence
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x * 8643, calculated from sequence
monomer
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DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
-
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
1 * 25000, SDS-PAGE
monomer
1 * 12000, SDS-PAGE
monomer
1 * 24897, calculated from amino acid sequence
monomer
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1 * 32000, SDS-PAGE
monomer
1 * 25000, SDS-PAGE
monomer
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1 * 26000, SDS-PAGE
monomer
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
native PAGE, MALDI-TOF/MS
monomer
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
-
1 * 86000, SDS-PAGE
monomer
1 * 29100, calculated, about 2900, MALDI-TOF
monomer
1 * 29700, calculated, about 2900, MALDI-TOF
monomer
DHARs have a monomeric state that is unlike most GSTs. The enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
monomer
1 * 26000, about, SDS-PAGE
monomer
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1 * 23000, SDS-PAGE
monomer
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1 * 25000, enzyme form DHAR-b, SDS-PAGE
monomer
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1 * 26000, enzyme form DHAR-a, SDS-PAGE
monomer
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electrospray ionization quadrupole-time-of-flight (ESI Q-TOF), 1 * 15000 Da (His-tagged fusion protein)
additional information
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the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
-
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
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additional information
-
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
formation of an intramolecular disulfide between Cys27 and Cys30 within the CPYC active site of GRX2
additional information
formation of an intramolecular disulfide between Cys27 and Cys30 within the CPYC active site of GRX2
additional information
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the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
-
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)
additional information
the enzyme consists of two domains. The N-terminal domain contains residues responsible for GSH binding (the G-site), which is structurally similar to, and has evolved from, the thioredoxin fold, whilst the C-terminal alpha-helical domain provides the majority of the binding site for the hydrophobic substrate (the H-site)