4.2.1.161: bisanhydrobacterioruberin hydratase

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For detailed information about bisanhydrobacterioruberin hydratase, go to the full flat file.

Reaction

Synonyms

c0505, C50 carotenoid 2'',3''-hydratase, CruF

ECTree

     4 Lyases

         4.2 Carbon-oxygen lyases

             4.2.1 Hydro-lyases

                4.2.1.161 bisanhydrobacterioruberin hydratase

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Results	in table
14	AA Sequence
1	Cloned(Commentary)
6	General Information
9	Natural Substrates/ Products (Substrates)
3	Organism
5	Pathway
2	Protein Variants
6	Reaction
3	Reference
14	Substrates and Products (Substrate)
13	Synonyms
1	Systematic Name

General Information

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General Information on EC 4.2.1.161 - bisanhydrobacterioruberin hydratase

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GENERAL INFORMATION

ORGANISM

UNIPROT

COMMENTARY

LITERATURE

evolution

2 entries

malfunction

Haloarcula japonica

A0A0A1GNF2

the deletion mutant strain DELTAc0505 shows the same growth rate as wild-type strain. The main cartotenoid products of the mutant strain are monoanhydrobacterioruberin and bisanhydrobacterioruberin. When plasmid pJc0505 containing the intact c0505 gene is introduced into the DELTAc0507 strain, the transformant restores the production of bacterioruberin

729941

metabolism

3 entries

evolution

Haloarcula japonica

A0A0A1GNF2

C0505, the C50 carotenoid 2'',3''-hydratase from Haloarcula japonica, is a homologue of the CruF-type carotenoid 1,2-hydratase

748096

evolution

Haloarcula japonica JCM 7785

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C0505, the C50 carotenoid 2'',3''-hydratase from Haloarcula japonica, is a homologue of the CruF-type carotenoid 1,2-hydratase

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metabolism

Haloarcula japonica

A0A0A1GNF2

the enzyme is involved in biosynthesis of the C50 carotenoid bacterioruberin

729941

metabolism

Haloarcula japonica

A0A0A1GNF2

the gene cluster, including genes c0507, c0506, and c0505, is involved in the synthesis of bacterioruberin. Genes c0507, c0506, and c0505 encode a carotenoid 3,4-desaturase (CrtD), a bifunctional lycopene elongase and 1,2-hydratase (LyeJ), and a C50 carotenoid 2'',3''-hydratase (CruF), respectively. The three carotenoid biosynthetic enzymes catalyze the reactions that convert lycopene to bacterioruberin in Haloarcula japonica. Biosynthetic pathway of C50 carotenoids, overview

748096

metabolism

Haloarcula japonica JCM 7785

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the gene cluster, including genes c0507, c0506, and c0505, is involved in the synthesis of bacterioruberin. Genes c0507, c0506, and c0505 encode a carotenoid 3,4-desaturase (CrtD), a bifunctional lycopene elongase and 1,2-hydratase (LyeJ), and a C50 carotenoid 2'',3''-hydratase (CruF), respectively. The three carotenoid biosynthetic enzymes catalyze the reactions that convert lycopene to bacterioruberin in Haloarcula japonica. Biosynthetic pathway of C50 carotenoids, overview

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