Your search keyword '"Franco, Baldi"' showing total 2 results

1. Sequencing and analysis of plasmids pAV1 and pAV2 ofAcinetobacter venetianus VE-C3 involved in diesel fuel degradation

Author

Alessio Mengoni, Sandra Ricci, Matteo Brilli, Renato Fani, and Franco Baldi

Subjects

Transposable element, Genetics, Plasmid, biology, Strain (chemistry), Mutant, Nucleic acid sequence, Chromosome, biology.organism_classification, Applied Microbiology and Biotechnology, Gene, Acinetobacter venetianus

Abstract

Acinetobacter venetianus strain VE-C3 was isolated in the Venice lagoon (Italy) as a strain able to degrade diesel fuel oil. This strain possesses genes of the alkane monoxygenase complex responsible forn-alkane degradation and carries two plasmids, pAV1 (10820 bp) and pAV2 (15135 bp), which were supposed from the analysis of Alk mutant strains to harbour genetic determinants for hydrocarbon degradation. In this work we determined the nucleotide sequence of both plasmids and showed the presence of a putative aldehyde dehydrogenase gene, essential for hydrocarbon degradation, on plasmid pAV2, and of an ORF similar toalkL gene present on pAV1 plasmid. These data, combined with genetic reports indicating that strains lacking one of the two plasmids or carrying transposon insertion on pAV1, are defective inn-alkane degradation, suggest a complex genomic organisation of genes involved in alkane degradation inA. venetianus VE-C3. In this bacterium these genes are carried by both the chromosome and the plasmids, while inAcinetobacter sp. strain ADP1 and M1 all the genes for alkane monoxygenase complex are located only on the chromosome.

Published

2007

2. Identification of alkane monoxygenase genes inAcinetobacter venetianus VE-C3 and analysis of mutants impaired in diesel fuel degradation

Author

Alessio Mengoni, Renato Fani, Francesca Decorosi, and Franco Baldi

Subjects

Plasmid, Biochemistry, Strain (chemistry), Mutant, Mutagenesis (molecular biology technique), Biology, Energy source, biology.organism_classification, Applied Microbiology and Biotechnology, Gene, Bacteria, Southern blot

Abstract

Cells ofAcinetobacter venetianus strain VE-C3 are able to degrade diesel fuel oil by a complex mechanism requiring the formation of cell aggregates and their further adhesion to fuel oil drops. In this work the biodegradation process inA. venetianus was studied by a combination of genetic, molecular and physiological methods. PCR amplification, sequencing and Southern blot analysis ofalkM andrubA genes coding for the alkane hydroxylase and rubredoxin were carried out. Then, 22 Alk− mutants impaired in diesel fuel degradation were obtained by nitrosoguanidine mutagenesis and characterised by i) growth on alkanes as sole carbon and energy sources, ii) modification of cell electrophoretic properties, and iii) analysis of plasmid content. Data obtained revealed that the genetic determinants for alkane degradation are located on both the chromosome and the two plasmids harboured by VE-C3 strain (pAV1 and pAV2, 11 Kbp and 15 kbp, respectively). This organization of genes coding for alkane monoxygenase complex seems to be similar to the arrangement found in Acinetobacter sp. strains ADP1 and M1, where genes are scattered through the chromosome but, as a novelty, that some genes involved in hydrocarbon degradation are plasmid borne also.

Published

2006