Query: NC_010410:513298 Acinetobacter baumannii AYE, complete genome
Lineage: Acinetobacter baumannii; Acinetobacter; Moraxellaceae; Pseudomonadales; Proteobacteria; Bacteria
General Information: This strain is responsible for community-acquired infections and is highly resistant to antibiotics. This bacterium is commonly isolated from the hospital environment and hospitalized patients. It is an aquatic organism, and is often cultured from liquid medical samples such as respiratory secretions, wounds, and urine. Acinetobacter also colonizes irrigating solutions and intravenous solutions. Although it has low virulence, it is capable of causing infection. Most isolates recovered from patients represent colonization rather than infection. When infections do occur, they usually occur in the blood, or in organs with a high fluid content, such as the lungs or urinary tract. Infections by this organism are becoming increasingly problematic due to the high number of resistance genes found in clinical isolates. Some strains are now resistant to all known antibiotics. Most of these genes appear to have been transferred horizontally from other organisms.
Subject: NC_003304:2507000 Agrobacterium tumefaciens str. C58 chromosome circular, complete
Lineage: Agrobacterium tumefaciens; Agrobacterium; Rhizobiaceae; Rhizobiales; Proteobacteria; Bacteria
General Information: Gram-negative soil bacterium. This is the most widely studied species in the genus. Strains of Agrobacterium are classified in three biovars based on their utilisation of different carbohydrates and other biochemical tests. The differences between biovars are determined by genes on the single circle of chromosomal DNA. Biovar differences are not particularly relevant to the pathogenicity of A. tumefaciens, except in one respect: biovar 3 is found worldwide as the pathogen of gravevines. This species causes crown gall disease of a wide range of dicotyledonous (broad-leaved) plants, especially members of the rose family such as apple, pear, peach, cherry, almond, raspberry and roses. Because of the way that it infects other organisms, this bacterium has been used as a tool in plant breeding. Any desired genes, such as insecticidal toxin genes or herbicide-resistance genes, can be engineered into the bacterial DNA, and then inserted into the plant genome. This process shortens the conventional plant breeding process, and allows entirely new (non-plant) genes to be engineered into crops.