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==Pathology== | ==Pathology== | ||
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<i>K. oralis</i> is an organism that is capable of locally invading periodontal tissues and inducing host defense. This contributes to gum diseases such as gingivitis and periodontitis that affects both adults and juveniles<sup>9</sup>. | |||
Gingivitis is usually the precursor stage of gum disease and is caused by gum inflammation due to <i> K. oralis</i> and other bacteria accumulating as plaque or tartar on teeth. In gingivitis, the gums become red, swollen, and bleeds easily. However, with regular cleaning of teeth, gingivitis can usually be reversed. | Gingivitis is usually the precursor stage of gum disease and is caused by gum inflammation due to <i> K. oralis</i> and other bacteria accumulating as plaque or tartar on teeth. In gingivitis, the gums become red, swollen, and bleeds easily. However, with regular cleaning of teeth, gingivitis can usually be reversed. | ||
Revision as of 11:27, 23 September 2016
Esther Chua | Bench E | 31 Aug 2016 [1]
Classification
Higher order taxa
Bacteria - Proteobacteria - Betaproteobacteria - Neisseriales - Neisseriaceae - Kingella - Kingella oralis
Species
Kingella oralis
Type strain: strain UB-38 = ATCC 51147= CCUG 30450 = CIP 103803
Description and significance
Kingella oralis was first obtained from human periodontal isolates recovered from a purported Eikenlla corrodens-selective medium1, and was originally described by Chen et al.(1990) as Eikenella corrodens-like isolates. Using 16sRNA sequencing, this species was identified as K. orale in 19931, but the spelling was changed to "K. oralis" in 19942. K. oralis is a gram-negative facultative (aerobic and anaerobic growth) organism thats grows in mesophillic environments. K. oralis is normally found in small numbers in the oral cavity in dental plaque, however periodontitis and gingivitis may correlate with increases in numbers of this species in the gingiva. They also produce corroding colonies. K. oralis is rather prevalent in dental plaque and has shown to constitute more than 5% of the total microbiota in peridontitis sites3.
Genome structure
Kingella Oralis strain ATCC 51147 does not encode for chromosomes and plasmids. It has a total length of about 2.41mb, encodes for 2,315 proteins and has a GC content of 54.3%. Sequencing results show that ATCC51147 consists of 5 scaffolds (Scfld 0-4) with no gaps between, an assembly gap length of 700, and 12 contigs. It has 3,165 coding genes and 52 non-coding genes.
Cell structure and metabolism
Kingella oralis are gram negative rods or cocobacilli that can form pairs or chains. It has a cell wall that consists of an outer membrane containing lipopolysaccharides, a periplasmic space with a peptidoglycan layer, and an inner, cytoplasmic membrane. Cells are nonmotile by flagella, but have monopolar fimbriae and form spreading colonies which suggests twitching motility1. K. oralis were not known to coaggregate, however recent studies have shown that they are able to coadhere with Streptococcus oralis during the formation of complex biofilms7. Cells can be aerobic or facultatively anaerobic. They are oxidase positive, catalase negative and are able to ferment glucose.
Ecology
K. oralis is an aerobic or facultatively anaerobic organism that is often cultured for on blood agar. The main habitat of K. oralis is in human dental plaque, however, it can also be found in smaller quantities in salival and mucosal sites. In periodontally healthy patients, K. Oralis is relatively evenly distributed in subgingival and supragingival plaque, but it has a higher distribution in the supragingival plaque of those with periodontitis 9.
The Kingella species are known to exchange antibiotic resistance plasmids with Neisseria gononhoeae and Neisseria meningitidis, resulting in a possibility of K. oralis as a plasmid reservoir10.
Pathology
K. oralis is an organism that is capable of locally invading periodontal tissues and inducing host defense. This contributes to gum diseases such as gingivitis and periodontitis that affects both adults and juveniles9.
Gingivitis is usually the precursor stage of gum disease and is caused by gum inflammation due to K. oralis and other bacteria accumulating as plaque or tartar on teeth. In gingivitis, the gums become red, swollen, and bleeds easily. However, with regular cleaning of teeth, gingivitis can usually be reversed.
When gingivitis is left untreated, there is a possibility of periodontitis (inflammation around the tooth) occurring. This causes gums to pull away from the teeth to form pockets that become infected. Bacterial toxins produced combined with the body's immune response to the infection causes the breakdown of bone and connective tissue that hold the teeth in place. When left untreated, the teeth may eventually become loose and would have to be removed. However, by maintaining good oral hygiene and practices, gum diseases such as these can be controlled.8
Application to biotechnology
K. oralis has been used in the validation of a new assay that can be used in the screening for coadhesion partners among the multitude of species present in oral biofilms7.
There has been no other evidence that shows that this species has been used in biotechnology.
Current research
K. oralis was not known to coaggregate with other species during biofilm formation, however recent research investigating the interbacterial adhesion in dental plaque development has identified K. oralis to be able to coaggregate with Streptococcus oralis during the formation of complex biofilms7.
Another recent research on DNA Uptake Sequence (DUS) has discovered that K. oralis replication is DUS-dependent(kingDUS) and this affects transformation by limiting DNA uptake and recombination in favour of homologous DNA. Approximately 2.5% of the K. oralis genome is occupied by the kingDUS, and this is very high compared to the approximate 1% DUS occupancy in N. meningitidis and N. gonorrhoeae genomes6.
References
4. NCBI-Genome
5. Yagupsky, P. Kingella species. Antimicrobe
- ↑ MICR3004
This page is written by <Esther Chua> for the MICR3004 course, Semester 2, 2016