Description and Significance
''Arthrobacter globiformis'' was first discoveredĀ by H. J. Conn in 1928. This bacteria was initially found in large quantities in various types of soil. They start as Gram-negative rods before becoming Gram-positive cocci over time. They may also become large, oval-shaped cells called cystite by growing them in very high carbon to nitrogen ratio environments. These bacteria have cell walls that contain polysaccharides (with monomers glucose, galactose, and rhamnose), peptidoglycan, and phosphorus. They may also have flagella as well. Notably, ''A. globiformis'' and its antigens and proteins are commercially available for use in research, food production, biodegradation, and water/wastewater treatment.Metabolism
''A. globiformis'' can break down substances in the soil such as agricultural chemicals, chromium, etc. They are primarily aerobic, but they can survive anaerobically using lactate, acetate, and ethanol producing fermentation for growth. Most are heterotrophic, meaning they cannot produce their own food. The choline oxidase activity of ''A. globiformis'' has been extensively characterized and is important for the production of glycine betaine, one of the few soluble osmotic regulators used by most cells.Genome and Genetics
The complete genome of ''A. globiformis'' has been sequenced using whole-genome shotgun sequencing. The genomes of three strains are available for public use. The genome is approximately 4.89 million base pairs long, containing 4305 proteins and a 66.1% GC content. Two major phylogenetic clades exist within the ''Arthrobacter'' genus, the ''A. globiformis''/''A. citreus'' group and the ''A. nicotianae'' group. These two clades differ mainly in their peptidoglycan structure, teichoic acid content, and lipid composition.Further reading
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