INVESTIGADORES
LUQUET carlos Marcelo
artículos
Título:
Comparison between crab hepatopancreas and rat liver uroporphyrinogen decarboxylase
Autor/es:
16. CHAUFAN, G; CORVI, M; ARMESTO, A; SAN MARTÍN DE VIALE, L; LUQUET, C. RÍOS DE MOLINA, M.
Revista:
COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY. PART B, BIOCHEMISTRY & MOLECULAR BIOLOGY.
Editorial:
Elsevier
Referencias:
Lugar: Amsterdam; Año: 2002 vol. 133 p. 251 - 256
ISSN:
1096-4959
Resumen:
We characterized Uroporphyrinogen decarboxylase (UroD) (E.C. 4.1.1.37) in hepatopancreas of the crab Chasmagnathus
granulatus as a first step to establish this enzyme as a possible biomarker for environmental contamination. We
performed a comparative study of crab UroD with the enzyme UroD present in Wistar rat liver, which is known as a
useful indicator of intoxication by polyhalogenated aromatic hydrocarbons (PAHs). The final products were the same in
crab and rat UroD: the remaining substrate (8-carboxyl-porphyrinogen), the final product Coproporphyrinogen (4-
COOH) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.(UroD) (E.C. 4.1.1.37) in hepatopancreas of the crab Chasmagnathus
granulatus as a first step to establish this enzyme as a possible biomarker for environmental contamination. We
performed a comparative study of crab UroD with the enzyme UroD present in Wistar rat liver, which is known as a
useful indicator of intoxication by polyhalogenated aromatic hydrocarbons (PAHs). The final products were the same in
crab and rat UroD: the remaining substrate (8-carboxyl-porphyrinogen), the final product Coproporphyrinogen (4-
COOH) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.as a first step to establish this enzyme as a possible biomarker for environmental contamination. We
performed a comparative study of crab UroD with the enzyme UroD present in Wistar rat liver, which is known as a
useful indicator of intoxication by polyhalogenated aromatic hydrocarbons (PAHs). The final products were the same in
crab and rat UroD: the remaining substrate (8-carboxyl-porphyrinogen), the final product Coproporphyrinogen (4-
COOH) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.(PAHs). The final products were the same in
crab and rat UroD: the remaining substrate (8-carboxyl-porphyrinogen), the final product Coproporphyrinogen (4-
COOH) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.(8-carboxyl-porphyrinogen), the final product Coproporphyrinogen (4-
COOH) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.) and intermediate compounds with 7-, 6- and 5-COOH. The elimination of the second carboxyl group seems to
be the rate-limiting step in this multiple decarboxylation, because large amounts of 7-COOH porphyrinogen are
accumulated. The VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.VmaxyKm ratio was 100-fold higher for rat liver UroD than for crab hepatopancreas UroD, suggesting
a higher efficiency of the rat enzyme. Optimum pH for enzyme activity was 7.2 and 6.8 for crab and rat, respectively.
Although both systems showed the same optimum temperature (47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.(47 8C), the activation energy was clearly different, 51.5
kJymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.ymol for C. granulatus and 5.4 kJymol for Rattus norvegicus (Wistar strain). Superdex 75 gel chromatography yielded
a single symmetrical peak with an apparent molecular mass of 48"3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus."3 kDa for crab hepatopancreas UroD, suggesting the
existence of only one enzymatic species in C. granulatus.C. granulatus.