Higher order taxa
Domain Bacteria; Phylum Proteobacteria; Class Epsilonproteobacteria; Order Campylobacterales; Family Helicobacteraceae
Genus Helicobacter; Species pullorum;
Helicobacter pullorum; H. pullorum
Description and significance
Helicobacter pullorum is a gram-negative bacteria in the genus Helicobacter. The cells are bacilli with a slight curve. They are typically 3-4 micrometers in length, and 0.3-0.5 micrometers in width. This bacteria species was discovered from chickens, specifically broiler and laying types, and has also been found in humans diagnosed with gastrointestinal disease. H. pullorum thrive in an environment of 37-42 °C and are therefore classified as mesophiles, in the higher end of that temperature range. They grow in microaerobic conditions and are non-spore forming. H. pullorum can also be classified by its response to certain tests. The species is negative for indoxyl acetate esterase, urease and alkaline phophatase production. It tests positive, however, for catalase production. 
They live in the intestinal tract of their host species but can also infiltrate the liver, ultimately causing hepatitis. The species is of significance as it is associated with enteritis and vibrionic hepatitis in poultry. It is also associated with gastroenteritis, diarrhea, liver, and gall bladder disease in humans, and it is speculated that it may play a role in Crohn’s disease. 
The amount of infections caused by H. pullorum is most likely underestimated due to its similarities between the genera Helicobacter and Campylobacter. There is a potential for food-borne transmission of H. pullorum to humans, as it has been recognized that Campylobacter species is capable of this. A number of cases concerning the species as a major-food associated human pathogen have been reported, however, there is lack of evidence supporting the prevalence of H. pullorum in humans. 
Helicobacter pullorum has a circular genome consisting of 1,919,070 nucleotides with a known sequence. The DNA codes for 2044 genes, 2008 of which are protein coding and 36 of which are structural RNAs. 33% of the genome consists of GC pairings.
Cell structure and metabolism
Being Gram negative, H. pullorum has two cell membranes. The cell is unable to grow at 25 degrees Celsius, but grows at 37 degrees Celsius under microaerobic conditions. Under aerobic conditions at 37 degrees Celsius, H. pullorum will not grow. Most Heliobacter cells have bundles of multiple sheathed flagella. However, H. pullorum has one single flagellum that is nonsheathed, as seen in Figure 1. H. pullorum produces catalase, reduces nitrates, and does not produce urease or alkaline phosphatase. It also produces cytolethal distending toxin, which causes distension in certain cell lines, causing the cell to disintegrate and die.
Mucous is the natural niche of the genus helicobacter. The prevalence of colonized spiral shaped bacteria in the gastric mucosa of most animals demonstrates this. It is likely that the spiral shape of the bacteria give it a selective advantage in this viscous environment. H. pullorum is a member of the enterohepatic helicobacters, which colonizes mainly in the intestine and the hepatobiliary system. The species is naturally found in chickens and birds, and was originally isolated from chickens. There is a possibility that humans may have helicobacter as a part of their normal flora in their lower bowel. However, there is lack of evidence to support this idea. H. Pullorum has also been isolated in fecal samples from humans with gastroenteritis, as well as from the gallbladders of women who had chronic cholecystitis, and from the livers of patients suffering from cirrhosis or hepatocellular carcinoma. 
Very little is known about the pathology of H. pullorum. There is very little evidence in either direction as to whether it is even harmful to its host. It is known to grow primarily in the intestinal tract of chickens, but has been found in the feces of humans. A study conducted in 2005 showed that Helicobacter pullorum was present in roughly the same percentage of fecal samples from patients with gastrointestinal disease (4.3%) as they were in healthy patients (4.0%). This, of course, does not mean that H. pullorum isn’t necessarily a cause of gastrointestinal disease. It could be that, like many bacteria, there are strains of H. pullorum that are virulent while others are not. This is supported by a 2000 study which showed that H. pullorum can produce cytolethal distending toxin, a potential virulence factor that may or may not be a direct cause of diarrhea. The effects of cytolethal distending toxin, including cytoplasmic distension and nuclear enlargement, are seen in Figure 2. 
"Occurrence of Helicobacter pullorum in turkeys" 
As H. pullorum is a relatively new species (discovered in 1994), much of the research done on this organism has involved its prevalence in turkeys. A study done by Zanoni, Piva, Rossi & Pasquali (2011), experimented with H. pullorum and its antibiotic resistance. Researchers took 55 turkeys from 11 farms in northern Italy to use for this experiment. Colonies were identified by PCR assay before being tested for resistance. Each of the 11 farms had animals positive for H. pullorum with a total of 42 out of the 55 animals infected. All isolates tested with susceptible to gentamycin and chloramphenicol. The majority of resistance was observed with erythromycin (9 isolates), nalidixic acid (8 isolates), and ciprofloxacin (8 isolates), with multiresistance seen between erythromycin and ciprofloxacin antibiotics. Also, a high prevalence of horizontal gene transfer and recombination was observed in the species. The combination of high frequency of isolation with multiple antibiotic resistance suggests that H. pullorum could be a major risk for contamination if found to be transmitted through food. Further testing needs to be done to determine if H. pullorum can be spread as a food-born illness and of its antibiotic resistance in human hosts.
"Cytolethal Distending Toxin in Avian and Human Isolates of Helicobacter pullorum" 
Helicobacter pullorum has been isolated from the ceca of poultry, livers of hens with lesions suggestive of hepatitis, and the feces of human patients with gastroenteritis. H. pullorum shares characteristics with Campylobacter species, making the two commonly confused. It is thought, therefore, that the prevalence of H. pullorum is underrepresented. Cytolethal distending toxin (CDT) has been found in several Helicobacter bacteria. The activity of CDT causes appearance of cellular distension, irregularities in the cytoskeleton, and lethality. The study done by Young, et al determined whether CDT activity was present in H. pullorum. The gene, cdtB, was found. H. pullorum produced cellular distension and cell cycle arrest, identical to bacteria that are known to have CDT activity. H. pullorum samples were also taken from humans with gastroenteritis, as clinical examples, and all were positive for the presence of the gene for CDT expression. The presence of this gene is thought to be a potential marker for identifying H. pullorum, along with using already known phenotypic and genotypic traits.
Helicobacter pullorum demonstrates cytotoxic activity causing cellular distention and halting of mitosis at G2/M stage. It is thought that this cytotoxic activity is what gives bacteria such as H. pullorum their pathogenicity in eukaryotic cells such as those of a chicken and a human. The cytotoxic activity of H. pullorum is though to target lymphocytes, causing a decreased immune response in the body and ultimately sickness. 
Ceelen, L., Decostere, A., Verschraegen, G., Ducatelle, R., and Haesebrouck, F. "Prevalence of Helicobacter pullorum among Patients with Gastrointestinal Disease and Clinically Healthy Persons". Journal of Clinical Microbiology. 2005. Volume 43. p. 2984-2986.
Manfreda, G., Parisi, A., Lucchi, A., Zanoni, R.G., and De Cesare, A. “ Prevalence of Helicobacter pullorum in Conventional, Organic, and Free-Range Broilers and Typing of Isolates”. Applied and Environmental Microbiology. 2011. Volume 77. p. 479–484.
Stanley, J., Linton, D., Burnens, A., Dewhirst, F., On, S., Porter, A., Owen, R., and Costas, M. ""Helicobacter pullorum" sp.nov.-genotype and phenotype of a new species isolated from poultry and from human patients with gastroenteritis". Microbiology. 1994. Volume 140. p. 3441-3449.
Young, V., Chien, C., Knox, K., Taylor, N., Schauer, D., Fox, J. "Cytolethal Distending Toxin in Avian and Human Isolates of Helicobacter pullorum". Journal of Infectious Diseases. 2000. Volume 182. p. 620-623.
[Sample reference] Takai, K., Sugai, A., Itoh, T., and Horikoshi, K. "Palaeococcus ferrophilus gen. nov., sp. nov., a barophilic, hyperthermophilic archaeon from a deep-sea hydrothermal vent chimney". International Journal of Systematic and Evolutionary Microbiology. 2000. Volume 50. p. 489-500.