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Literature DB >> 5266151

Biotin-bound CO2 and the mechanism of enzymatic carboxylation reactions.

Abstract

Considerations are provided which show that the carboxylation site (oxygen or nitrogen) of biotin is most likely unknown. Kinetic studies of intramolecular reactions of the ureido function at acyl carbon demonstrate that ureido oxygen attack is the preferred mode when the acyl group is activated. Transfer from the O-acylisourea formed by this route (relative to an N-acylurea) is also favorable. These model studies are related to the carboxylation and CO(2) transfer steps of biotin-mediated reactions, and a mechanism consistent with these results is postulated.

Entities: Chemical

Mesh：

Substances：

Year: 1970 PMID： 5266151 PMCID： PMC282986 DOI： 10.1073/pnas.65.4.805

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

8 in total

1. [On the structurre of carboxylated beta-methylcrotonyl carboxylase (CO2-biotin enzyme)].

Authors: J KNAPPE; G WENGER; U WIEGAND
Journal: Biochem Z Date: 1963

2. [On the biochemical function of biotin. I. The participation of beta-methyl-crotonyl-carboxylase in the formation of beta-hydroxy-beta-methyl-glutaryl-CoA from beta-hydroxy-isovaleryl-CoA].

Authors: J KNAPPE; H G SCHLEGEL; F LYNEN
Journal: Biochem Z Date: 1961

1 in total

1. Biotin. Its place in evolution.

Authors: C M Visser; R M Kellogg
Journal: J Mol Evol Date: 1978-06-20 Impact factor: 2.395

1 in total

Biotin-bound CO2 and the mechanism of enzymatic carboxylation reactions.

1. [On the structurre of carboxylated beta-methylcrotonyl carboxylase (CO2-biotin enzyme)].

2. [On the biochemical function of biotin. I. The participation of beta-methyl-crotonyl-carboxylase in the formation of beta-hydroxy-beta-methyl-glutaryl-CoA from beta-hydroxy-isovaleryl-CoA].

3. [On the biochemical function of biotin. III. The chemical structure of enzymatically formed carboxy-biotins].

4. [On the biochemical function of biotin. II. Purification and mode of action of beta-methyl-crotonyl-carboxylase].

5. Studies on the mechanism of biotin catalysis. II.

Review 6. Advances in the chemistry of carbodiimides.

7. Glycoside hydrolysis. II. Intramolecular carboxyl and acetamido group catalysis in beta-glycoside hydrolysis.

8. Studies of the mechanism of biotin catalysis.

1. Biotin. Its place in evolution.