Isolation and characterization of a D-cysteine desulfhydrase protein from Arabidopsis thaliana

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OriginalspracheEnglisch
Seiten (von - bis)1291-1304
Seitenumfang14
FachzeitschriftFEBS Journal
Jahrgang272
Ausgabenummer5
PublikationsstatusVeröffentlicht - 1 März 2005

Abstract

In several organisms D-cysteine desulfhydrase (D-CDes) activity (EC 4.1.99.4) was measured; this enzyme decomposes D-cysteine into pyruvate, H 2S, and NH3. A gene encoding a putative D-CDes protein was identified in Arabidopsis thaliana (L) Heynh. based on high homology to an Escherichia coli protein called YedO that has D-CDes activity. The deduced Arabidopsis protein consists of 401 amino acids and has a molecular mass of 43.9 kDa. It contains a pyridoxal-5′-phosphate binding site. The purified recombinant mature protein had a Km for D-cysteine of 0.25 mM. Only D-cysteine but not L-cysteine was converted by D-CDes to pyruvate, H 2S, and NH3. The activity was inhibited by aminooxy acetic acid and hydroxylamine, inhibitors specific for pyridoxal-5′-phosphate dependent proteins, at low micromolar concentrations. The protein did not exhibit 1-aminocyclopropane-1-carboxylate deaminase activity (EC 3.5.99.7) as homologous bacterial proteins. Western blot analysis of isolated organelles and localization studies using fusion constructs with the green fluorescent protein indicated an intracellular localization of the nuclear encoded D-CDes protein in the mitochondria. D-CDes RNA levels increased with proceeding development of Arabidopsis but decreased in senescent plants; D-CDes protein levels remained almost unchanged in the same plants whereas specific D-CDes activity was highest in senescent plants. In plants grown in a 12-h light/12-h dark rhythm D-CDes RNA levels were highest in the dark, whereas protein levels and enzyme activity were lower in the dark period than in the light indicating post-translational regulation. Plants grown under low sulfate concentration showed an accumulation of D-CDes RNA and increased protein levels, the D-CDes activity was almost unchanged. Putative in vivo functions of the Arabidopsis D-CDes protein are discussed.

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Isolation and characterization of a D-cysteine desulfhydrase protein from Arabidopsis thaliana. / Riemenschneider, Anja; Wegele, Rosalina; Schmidt, Ahlert et al.
in: FEBS Journal, Jahrgang 272, Nr. 5, 01.03.2005, S. 1291-1304.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Riemenschneider A, Wegele R, Schmidt A, Papenbrock J. Isolation and characterization of a D-cysteine desulfhydrase protein from Arabidopsis thaliana. FEBS Journal. 2005 Mär 1;272(5):1291-1304. doi: 10.1111/j.1742-4658.2005.04567.x
Riemenschneider, Anja ; Wegele, Rosalina ; Schmidt, Ahlert et al. / Isolation and characterization of a D-cysteine desulfhydrase protein from Arabidopsis thaliana. in: FEBS Journal. 2005 ; Jahrgang 272, Nr. 5. S. 1291-1304.
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abstract = "In several organisms D-cysteine desulfhydrase (D-CDes) activity (EC 4.1.99.4) was measured; this enzyme decomposes D-cysteine into pyruvate, H 2S, and NH3. A gene encoding a putative D-CDes protein was identified in Arabidopsis thaliana (L) Heynh. based on high homology to an Escherichia coli protein called YedO that has D-CDes activity. The deduced Arabidopsis protein consists of 401 amino acids and has a molecular mass of 43.9 kDa. It contains a pyridoxal-5′-phosphate binding site. The purified recombinant mature protein had a Km for D-cysteine of 0.25 mM. Only D-cysteine but not L-cysteine was converted by D-CDes to pyruvate, H 2S, and NH3. The activity was inhibited by aminooxy acetic acid and hydroxylamine, inhibitors specific for pyridoxal-5′-phosphate dependent proteins, at low micromolar concentrations. The protein did not exhibit 1-aminocyclopropane-1-carboxylate deaminase activity (EC 3.5.99.7) as homologous bacterial proteins. Western blot analysis of isolated organelles and localization studies using fusion constructs with the green fluorescent protein indicated an intracellular localization of the nuclear encoded D-CDes protein in the mitochondria. D-CDes RNA levels increased with proceeding development of Arabidopsis but decreased in senescent plants; D-CDes protein levels remained almost unchanged in the same plants whereas specific D-CDes activity was highest in senescent plants. In plants grown in a 12-h light/12-h dark rhythm D-CDes RNA levels were highest in the dark, whereas protein levels and enzyme activity were lower in the dark period than in the light indicating post-translational regulation. Plants grown under low sulfate concentration showed an accumulation of D-CDes RNA and increased protein levels, the D-CDes activity was almost unchanged. Putative in vivo functions of the Arabidopsis D-CDes protein are discussed.",
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T1 - Isolation and characterization of a D-cysteine desulfhydrase protein from Arabidopsis thaliana

AU - Riemenschneider, Anja

AU - Wegele, Rosalina

AU - Schmidt, Ahlert

AU - Papenbrock, Jutta

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N2 - In several organisms D-cysteine desulfhydrase (D-CDes) activity (EC 4.1.99.4) was measured; this enzyme decomposes D-cysteine into pyruvate, H 2S, and NH3. A gene encoding a putative D-CDes protein was identified in Arabidopsis thaliana (L) Heynh. based on high homology to an Escherichia coli protein called YedO that has D-CDes activity. The deduced Arabidopsis protein consists of 401 amino acids and has a molecular mass of 43.9 kDa. It contains a pyridoxal-5′-phosphate binding site. The purified recombinant mature protein had a Km for D-cysteine of 0.25 mM. Only D-cysteine but not L-cysteine was converted by D-CDes to pyruvate, H 2S, and NH3. The activity was inhibited by aminooxy acetic acid and hydroxylamine, inhibitors specific for pyridoxal-5′-phosphate dependent proteins, at low micromolar concentrations. The protein did not exhibit 1-aminocyclopropane-1-carboxylate deaminase activity (EC 3.5.99.7) as homologous bacterial proteins. Western blot analysis of isolated organelles and localization studies using fusion constructs with the green fluorescent protein indicated an intracellular localization of the nuclear encoded D-CDes protein in the mitochondria. D-CDes RNA levels increased with proceeding development of Arabidopsis but decreased in senescent plants; D-CDes protein levels remained almost unchanged in the same plants whereas specific D-CDes activity was highest in senescent plants. In plants grown in a 12-h light/12-h dark rhythm D-CDes RNA levels were highest in the dark, whereas protein levels and enzyme activity were lower in the dark period than in the light indicating post-translational regulation. Plants grown under low sulfate concentration showed an accumulation of D-CDes RNA and increased protein levels, the D-CDes activity was almost unchanged. Putative in vivo functions of the Arabidopsis D-CDes protein are discussed.

AB - In several organisms D-cysteine desulfhydrase (D-CDes) activity (EC 4.1.99.4) was measured; this enzyme decomposes D-cysteine into pyruvate, H 2S, and NH3. A gene encoding a putative D-CDes protein was identified in Arabidopsis thaliana (L) Heynh. based on high homology to an Escherichia coli protein called YedO that has D-CDes activity. The deduced Arabidopsis protein consists of 401 amino acids and has a molecular mass of 43.9 kDa. It contains a pyridoxal-5′-phosphate binding site. The purified recombinant mature protein had a Km for D-cysteine of 0.25 mM. Only D-cysteine but not L-cysteine was converted by D-CDes to pyruvate, H 2S, and NH3. The activity was inhibited by aminooxy acetic acid and hydroxylamine, inhibitors specific for pyridoxal-5′-phosphate dependent proteins, at low micromolar concentrations. The protein did not exhibit 1-aminocyclopropane-1-carboxylate deaminase activity (EC 3.5.99.7) as homologous bacterial proteins. Western blot analysis of isolated organelles and localization studies using fusion constructs with the green fluorescent protein indicated an intracellular localization of the nuclear encoded D-CDes protein in the mitochondria. D-CDes RNA levels increased with proceeding development of Arabidopsis but decreased in senescent plants; D-CDes protein levels remained almost unchanged in the same plants whereas specific D-CDes activity was highest in senescent plants. In plants grown in a 12-h light/12-h dark rhythm D-CDes RNA levels were highest in the dark, whereas protein levels and enzyme activity were lower in the dark period than in the light indicating post-translational regulation. Plants grown under low sulfate concentration showed an accumulation of D-CDes RNA and increased protein levels, the D-CDes activity was almost unchanged. Putative in vivo functions of the Arabidopsis D-CDes protein are discussed.

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