Listeria ivanovii
Listeria ivanovii is a species of bacteria in the genus Listeria. The listeria are rod-shaped bacteria, do not produce spores, and become positively stained when subjected to Gram staining. Of the six bacteria species within the genus, L. ivanovii is one of the two pathogenic species. In 1955 Bulgaria, the first known isolation of this species was found from sheep. It behaves like L. monocytogenes, but is found almost exclusively in ruminants. The species is named in honor of Bulgarian microbiologist Ivan Ivanov. This species is facultatively anaerobic, which makes it possible for it to go through fermentation when there is oxygen depletion.
Table
Morphological, physiological, and biochemical characteristics of Listeria ivanovii are shown in the table below.| Test type | Test | Characteristics |
| Colony characters | Size | Small |
| Colony characters | Type | Round |
| Colony characters | Color | Bluish grey |
| Colony characters | Shape | Smooth |
| Morphological characters | Shape | Rod |
| Physiological characters | Motility | + |
| Physiological characters | Blood agar | β-hemolytic |
| Physiological characters | Growth at 6.5% NaCl | + |
| Biochemical characters | Gram staining | + |
| Biochemical characters | Oxidase | - |
| Biochemical characters | Catalase | + |
| Biochemical characters | Oxidative-Fermentative | Fermentative |
| Biochemical characters | Motility | + |
| Biochemical characters | Methyl Red | + |
| Biochemical characters | Voges-Proskauer | + |
| Biochemical characters | Indole | - |
| Biochemical characters | H2S Production | - |
| Biochemical characters | Urease | + |
| Biochemical characters | Nitrate reductase | - |
| Biochemical characters | β-Galactosidase | + |
| Hydrolysis of | Gelatin | - |
| Hydrolysis of | Casein | - |
| Utilization of | Glycerol | + |
| Utilization of | Galactose | - |
| Utilization of | D-Glucose | + |
| Utilization of | D-Fructose | + |
| Utilization of | D-Mannose | - |
| Utilization of | Mannitol | - |
Note: + = Positive, - = Negative
L. Ivanovii conony characteristics are observed on nutrient agar plates or slants.
Distinction
Listeria ivanovii can be distinguished from L. monocytogenes and other Listeria species by culturing it on sheep or horse blood agar, which will produce a wide, clear or double zone of haemolysis, producing a so-called positive Christie-Atkins-Munch-Petersen reaction with Rhodococcus equi but not with haemolytic Staphylococcus aureus. L. ivanovii's unique feature compared to most species in this genus is that it can ferment D-ribose.The bacteria doesn't produce CO2 for the Oxidase test. The Nitrate reductase test results in Nitrate not reducing to Nitrite, so it reduces to something other than this. Gelatin doesn't liquify/hydrolyzed, which would prove if the bacteria produces gelatinases. On a blood agar containing sheep or horse blood, the agar shows β-hemolytic.
Pathology
Infection with L. ivanovii can lead to septicemic disease with enteritis, neonatal sepsis and even abortion. Pregnant ruminants are therefore most at risk. The infection multiplies in the liver and is known to spread to macrophages as well as non-phagocytic cells. Listeria ivanovii can be found in the soil, water, feces, and several different types of food. Animals can get infected due to eating decomposed plants and feces from other infected animals.Although L. ivanovii is most typically found in sheep, it can be passed to humans via food such as fresh cheese. Until 2010, this bacteria was thought to only infect ruminants, and its sister bacteria Listeria monocytogenes was blamed for infection of humans. A human infection because of L. ivanovii is rare, but serious. This bacteria infection is serious because L. ivanovii can continue to grow on foods in refrigerated conditions. If a person were to contract an infection from this bacteria, they would begin to develop mild flu-like symptoms that could potentially turn into more serious conditions such as sepsis, meningitis, encephalitis, and . The best way to avoid this infection, especially for those at risk maintain a clean kitchen and to avoid foods such as unpasteurized milk, cheese made from unpasteurized milk, and raw fish.
Testing for the presence of this bacteria is often determined by testing fecal material.
L. ivanovii can have transformation in a research setting using electrotransformation with a plasmid that uses ActA protein. The ActA protein is used, so that the recombinant plasmid can code the N-terminus region of the protein. To perform this, a buffer must be used in order for electrotransformation to be performed with L. ivanovii.