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.
2013
Flavins and Flavoproteins 2011
Susan Miller, Russ Hille, Bruce Palfey
359
364
9781300786405
BVMO; in silico analysis; molecular modelling
I. Zgrablic; S. J. Sadeghi; d. Minerdi; G. Gilardi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/131711
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