Helicobacter typhlonius
Helicobacter typhlonius is a Gram-negative bacterium and opportunistic pathogen found in the genus Helicobacter. Only 35 known species are in this genus, which was described in 1982. H. typhlonius has a small number of close relatives, including Helicobacter muridarum, Helicobacter trogontum, and Helicobacter hepaticus, with the latter being the closest relative and much more prevalent.
Taxonomy
Helicobacter typhlonius is one of 35 known species of Helicobacter. It was previously named Helicobacter sp. strain MIT 97-6910 by Fox et al., but was changed to its current name by Franklin et al. after discovering a genetically and morphologically identical organism that causes proliferative typhlocolitis, also known as irritable bowel disease. Some close relatives of H. typhlonius include H. muridarum, H. trogontum, H. hepaticus, and H. pylori.Morphology and physiology
Helicobacter typhlonius is motile due to its single sheathed flagellum. It has a spiral morphology, and its size is 0.3 by 2.0 to 3.0 μm. It is capable of ammonia assimilation, urea production, and phosphoribosyl pyrophosphate biosynthesis. H. typhlonius is also urease-negative, which is known to assist in survival and proliferation of microbes in acidic gastric environments. Additionally, it can only grow in microaerobic conditions, not in aerobic or anaerobic conditions.Discovery
Helicobacter typhlonius was isolated from the feces of immunocompromised mice by James G. Fox and Craig L. Franklin in two separate laboratories in 1999. The mice suffered from irritable bowel syndrome, which was caused by H. typhlonius, but the mechanism of the infection was unknown. Polymerase chain reaction was used to copy the DNA sequence of the bacteria to be examined. PCR was an ideal method, due to the unique intervening genome sequence that is easily recognized by PCR. The sequences were then analyzed using the Sequence Analysis Software Package. The biochemical results of PCR tests, as well as phenotypic test results of all other 32 known species of Helicobacter, were compared to the results given by the newly isolated species. After observing the results and declaring H. typhlonius a new species of Helicobacter, a new phylogenetic tree for the genus Helicobacter was created.Genomics
The full genome was determined using Single molecule [real time sequencing|single-molecule, real-time sequencing] in 2015 by Frank et al. Using hierarchical genome assembly process, the sequences were assembled into a single long read.The genome of H. typhlonius is 1,920,000 base pairs in length, with 2,117 protein-coding genes and 43 RNA genes with a GC-content of 38.8%. Compared to other members of the genus Helicobacter such as H. hepaticus and H. pylori, H. typhlonius has a larger genome. Furthermore, H. typhlonius has a GC-content that is similar to H. hepaticus. While roughly 75% of protein-coding genes were shared between H. hepaticus and H. typhlonius, 468 unique protein-coding genes were identified in H. typhlonius, which comprise about 2% of its entire genome.
Additionally, the genome contains a distinct pathogenicity island with a lower GC-content and flanked by repeats. This island is around 650,000 base pairs and compromises 75 protein-coding genes that include a type IV secretion system that is responsible for secreting toxins to assist in virulence.
Metabolism
Helicobacter typhlonius is a microaerophile capable of oxidative phosphorylation using oxygen as a terminal electron acceptor.In this species, fermentation of pyruvate and Acetyl-CoA to acetate is possible in the absence of oxygen. Additionally, carbohydrate breakdown includes both sucrose and mannose and amino-acid degradation includes citrulline, aspartate, glutamate, and glutamine. H. typhlonius is also capable of arginine biosynthesis through the urea cycle.