The A. radioresistens S13 BVMO gene was isolated by our group as a homologue of Acinetobacter sp. almA gene [6]. AlmA encodes for an enzyme involved in the n-alkanes metabolism. The in silico translated ORF of both BVMO and almA had an high sequence identity (75%). The BVMO ORF (1491bp) encoded a putative protein of 496 aminoacids, with a theoretical molecular mass of 56,082 kDa. The amino acid sequence of the protein was compared with those available in databases.
In silico analysis of possible substrates of a novel bacterial BVMO
ZGRABLIC, IVAN;SADEGHI, JILA;MINERDI, Daniela;GILARDI, Gianfranco
2013-01-01
Abstract
The A. radioresistens S13 BVMO gene was isolated by our group as a homologue of Acinetobacter sp. almA gene [6]. AlmA encodes for an enzyme involved in the n-alkanes metabolism. The in silico translated ORF of both BVMO and almA had an high sequence identity (75%). The BVMO ORF (1491bp) encoded a putative protein of 496 aminoacids, with a theoretical molecular mass of 56,082 kDa. The amino acid sequence of the protein was compared with those available in databases.
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