Pre_GI: SWBIT SVG BLASTP

Query: NC_010322:6037566 Pseudomonas putida GB-1 chromosome, complete genome

Lineage: Pseudomonas putida; Pseudomonas; Pseudomonadaceae; Pseudomonadales; Proteobacteria; Bacteria

General Information: Pseudomonas putida strain GB-1, a fresh water, Gram-negative gamma-proteobacterium, is a genetically tractable, robust manganese (Mn) oxidizer, and as such, is an ideal model for unraveling the catalytic mechanism for, and the molecular regulation of Mn(IV) oxide production and its eventual accumulation on the cell surface at the onset of stationary phase. Since its isolation from Green Bay nearly 20 years ago by Ken Nealson’s group (then at the Center for Great Lakes Studies, Univ. Wisconsin-Milwaukee, USA), it has been the non spore-forming, model organism (along with the closely-related strain MnB1) for molecular genetic studies of Mn(II) oxidization, protein transport and biofilm formation and for biochemical studies on protein purification and Mn(III)-pyoverdine binding. Bacteria belonging to the Pseudomonas group are common inhabitants of soil and water and can also be found on the surfaces of plants and animals. Pseudomonas bacteria are found in nature in a biofilm or in planktonic form. Pseudomonas bacteria are renowned for their metabolic versatility as they can grow under a variety of growth conditions and do not need any organic growth factors. As they are metabolically versatile, and well characterized, it makes them great candidates for biocatalysis, bioremediation and other agricultural applications. Certain strains have been used in the production of bioplastics.

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BLASTP Alignment.txt

Subject: NC_008260:2340824 Alcanivorax borkumensis SK2, complete genome

Lineage: Alcanivorax borkumensis; Alcanivorax; Alcanivoracaceae; Oceanospirillales; Proteobacteria; Bacteria

General Information: This bacterium was isolated from a seawater sediment sample in the North Sea. The species is able to use Mihagol-S (C14,15-n-alkanes) as a principal carbon source. Using n-alkanes as a sole carbon source causes the strains to produce extracellular and membrane-bound surface-active glucose lipids. Phenotypic analysis showed a restricted nutritional profile, high halotolerance, the absence of fermentative metabolism, and a low G+C content. This, in combination with a 16S phylogenetic study, allowed the placing of this organism into a new genus.