Pre_GI: SWBIT SVG BLASTP

Query: NC_012785:1960500 Kosmotoga olearia TBF 19.5.1, complete genome

Lineage: Kosmotoga olearia; Kosmotoga; Thermotogaceae; Thermotogales; Thermotogae; Bacteria

General Information: Gram-negative bacterium Kosmotoga olearia TBF 19.5.1 was isolated from an oil deposit. Broad temperature growth range. This organism is a member of the Thermotogales and has the characteristic morphology of one or more cells contained in a sheath-like envelope which extends beyond the cell wall. Preliminary sequencing of Thermotogales genomes has identified extensive horizontal gene transfer between these organisms and the Archaea.

- Sequence; - BLASTP hit: hover for score (Low score = Light, High score = Dark);
- hypothetical protein; - cds: hover for description

BLASTP Alignment.txt

Subject: NC_014976:1174430 Bacillus subtilis BSn5 chromosome, complete genome

Lineage: Bacillus subtilis; Bacillus; Bacillaceae; Bacillales; Firmicutes; Bacteria

General Information: Bacillus subtilis BSn5 was isolated from Amorphophallus konjac calli tissue culture. Bacilllus subtilis BSn5 could inhibit Erwinia carotovora subsp. carotovora strain SCG1, which causes Amorphophallus soft rot disease and affects Amorphophallus industry development This organism was one of the first bacteria studied, and was named Vibrio subtilis in 1835 and renamed Bacillus subtilis in 1872. It is one of the most well characterized bacterial organisms, and is a model system for cell differentiation and development. This soil bacterium can divide asymmetrically, producing an endospore that is resistant to environmental factors such as heat, acid, and salt, and which can persist in the environment for long periods of time. The endospore is formed at times of nutritional stress, allowing the organism to persist in the environment until conditions become favorable. Prior to the decision to produce the spore the bacterium might become motile, through the production of flagella, and also take up DNA from the environment through the competence system.The sporulation process is complex and involves the coordinated regulation of hundreds of genes in the genome. This initial step results in the coordinated asymmetric cellular division and endospore formation through multiple stages that produces a single spore from the mother cell.