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Rickettsia

March 17, 2024

Rickettsia is a genus of nonmotile, gram-negative, nonspore-forming, highly pleomorphic bacteria that may occur in the forms of cocci (0.1 μm in diameter), bacilli (1–4 μm long), or threads (up to about 10 μm long). The genus was named after Howard Taylor Ricketts in honor of his pioneering work on tick-borne spotted fever.

Rickettsia
Red-stained Rickettsia rickettsii visible in cells of an Ixodid vector tick
Scientific classification
Domain: Bacteria
Phylum: Pseudomonadota
Class: Alphaproteobacteria
Order: Rickettsiales
Family: Rickettsiaceae
Tribe: Rickettsieae
Genus: Rickettsia
da Rocha-Lima, 1916
Species groups and species[8]

Properly, Rickettsia is the name of a single genus, but the informal term "rickettsia", plural "rickettsias", usually not capitalised, commonly applies to any members of the order Rickettsiales. Being obligate intracellular bacteria, rickettsias depend on entry, growth, and replication within the cytoplasm of living eukaryotic host cells (typically endothelial cells).[9] Accordingly, Rickettsia species cannot grow in artificial nutrient culture; they must be grown either in tissue or embryo cultures; typically, chicken embryos are used, following a method developed by Ernest William Goodpasture and his colleagues at Vanderbilt University in the early 1930s. Many new strains or species of Rickettsia are described each year.[10][11] Some Rickettsia species are pathogens of medical and veterinary interest, but many Rickettsia are non-pathogenic to vertebrates, including humans, and infect only arthropods, often non-hematophagous, such as aphids or whiteflies.[12][13][14] Many Rickettsia species are thus arthropod-specific symbionts, but are often confused with pathogenic Rickettsia (especially in medical literature), showing that the current view in rickettsiology has a strong anthropocentric bias.[15]

Pathogenic Rickettsia species are transmitted by numerous types of arthropods, including chigger, ticks, fleas, and lice, and are associated with both human and plant diseases.[16] Most notably, Rickettsia species are the pathogens responsible for typhus, rickettsialpox, boutonneuse fever, African tick-bite fever, Rocky Mountain spotted fever, Flinders Island spotted fever, and Queensland tick typhus (Australian tick typhus).[17] The majority of pathogenic Rickettsia bacteria are susceptible to antibiotics of the tetracycline group.

Classification edit

The classification of Rickettsia into three groups (spotted fever, typhus, and scrub typhus) was initially based on serology. This grouping has since been confirmed by DNA sequencing. All three of these groups include human pathogens. The scrub typhus group has been reclassified as a related new genus, Orientia, but they still are in the order Rickettsiales and accordingly still are grouped with the rest of the rickettsial diseases.[citation needed]

Rickettsias are more widespread than previously believed and are known to be associated with arthropods, leeches, and protists. Divisions have also been identified in the spotted fever group and this group likely should be divided into two clades.[18] Arthropod-inhabiting rickettsiae are generally associated with reproductive manipulation (such as parthenogenesis) to persist in host lineage.[16]

In March 2010, Swedish researchers reported a case of bacterial meningitis in a woman caused by Rickettsia helvetica previously thought to be harmless.[19]

Spotted fever group edit

Rocky Mountain spotted fever
Rickettsialpox
Boutonneuse fever
Siberian tick typhus or North Asian tick typhus
Australian tick typhus
Flea-borne spotted fever
Oriental spotted fever
African tick bite fever
  • Rickettsia hoogstraalii (Croatia, Spain and Georgia USA)[20]
Unknown pathogenicity

Typhus group edit

Epidemic typhus, recrudescent typhus, and sporadic typhus
Murine typhus (endemic typhus)

Scrub typhus group edit

  • The causative agent of scrub typhus formerly known as R. tsutsugamushi has been reclassified into the genus Orientia.
Schematic ribosomal RNA phylogeny of Alphaproteobacteria
The cladogram of Rickettsidae has been inferred by Ferla et al. [21] from the comparison of 16S + 23S ribosomal RNA sequences.

Flora and fauna pathogenesis edit

Plant diseases have been associated with these Rickettsia-like organisms (RLOs):[22]

Infection occurs in nonhuman mammals; for example, species of Rickettsia have been found to afflict the South American guanaco, Lama guanacoe.[24]

Pathophysiology edit

Main article: Typhus

Rickettsial organisms are obligate intracellular parasites and invade vascular endothelial cells in target organs, damaging them and producing increased vascular permeability with consequent oedema, hypotension, and hypoalbuminaemia.[25]

Genomics edit

Certain segments of rickettsial genomes resemble those of mitochondria.[26] The deciphered genome of R. prowazekii is 1,111,523 bp long and contains 834 genes.[27] Unlike free-living bacteria, it contains no genes for anaerobic glycolysis or genes involved in the biosynthesis and regulation of amino acids and nucleosides. In this regard, it is similar to mitochondrial genomes; in both cases, nuclear (host) resources are used.

ATP production in Rickettsia is the same as that in mitochondria. In fact, of all the microbes known, the Rickettsia is probably the closest relative (in a phylogenetic sense) to the mitochondria. Unlike the latter, the genome of R. prowazekii, however, contains a complete set of genes encoding for the tricarboxylic acid cycle and the respiratory chain complex. Still, the genomes of the Rickettsia, as well as the mitochondria, are frequently said to be "small, highly derived products of several types of reductive evolution".

The recent discovery of another parallel between Rickettsia and viruses may become a basis for fighting HIV infection.[28] Human immune response to the scrub typhus pathogen, Orientia tsutsugamushi, appears to provide a beneficial effect against HIV infection progress, negatively influencing the virus replication process. A probable reason for this actively studied phenomenon is a certain degree of homology between the rickettsiae and the virus, namely, common epitope(s) due to common genome fragment(s) in both pathogens. Surprisingly, the other infection reported to be likely to provide the same effect (decrease in viral load) is the virus-caused illness dengue fever.

Comparative analysis of genomic sequences have also identified five conserved signature indels in important proteins, which are uniquely found in members of the genus Rickettsia. These indels consist of a four-amino-acid insertion in transcription repair coupling factor Mfd, a 10-amino-acid insertion in ribosomal protein L19, a one-amino-acid insertion in FtsZ, a one-amino-acid insertion in major sigma factor 70, and a one-amino-acid deletion in exonuclease VII. These indels are all characteristic of the genus and serve as molecular markers for Rickettsia.[29]

Bacterial small RNAs play critical roles in virulence and stress/adaptation responses. Although their specific functions have not been discovered in Rickettsia, few studies showed the expression of novel sRNA in human microvascular endothelial cells (HMEC) infected with Rickettsia.[30][31]

Genomes of intracellular or parasitic bacteria undergo massive reduction compared to their free-living relatives. Examples include Rickettsia for alpha proteobacteria, T. whipplei for Actinobacteria, Mycoplasma for Firmicutes (the low G+C content Gram-positive), and Wigglesworthia and Buchnera for gamma proteobacteria.[32]

Naming edit

The genus Rickettsia is named after Howard Taylor Ricketts (1871–1910), who studied Rocky Mountain spotted fever in the Bitterroot Valley of Montana, and eventually died of typhus after studying that disease in Mexico City.

In his early part of career, he undertook research at Northwestern University on blastomycosis. He later worked on Rocky Mountain spotted fever at the University of Chicago and Bitterroot Valley of Montana. He was so devoted to his research that on several occasions,he injected himself with pathogens to study their effects. On account of the apparent similarity between Rocky Mountain fever and typhus fever, he became occupied in investigating the latter in Chicago where the disease was epidemic, and became a victim of the epidemic in 1910. His investigations and discoveries added materially to the sum of medical knowledge.

References edit

  1. ^ a b c d e f g h Skerman VB, McGowan V, Sneath PH, eds. (1989). Approved Lists of Bacterial Names (amended ed.). Washington, DC: American Society for Microbiology.
  2. ^ Truper HG, De' Clari L (1997). "Taxonomic note: Necessary correction of specific epithets formed as substantives (nouns) 'in apposition'". Int J Syst Bacteriol. 47 (3): 908–909. doi:10.1099/00207713-47-3-908.
  3. ^ Beati, L.; Meskini, M., et al. (1997), "Rickettsia aeschlimannii sp. nov., a new spotted fever group rickettsia associated with Hyalomma marginatum ticks", Int J Syst Bacteriol 47 (2): 548-55s4
  4. ^ Kelly PJ, Beati L, Mason PR, Matthewman LA, Roux V, Raoult D (April 1996). "Rickettsia africae sp. nov., the etiological agent of African tick bite fever". International Journal of Systematic Bacteriology. 46 (2): 611–614. doi:10.1099/00207713-46-2-611. PMID 8934912.
  5. ^ Fujita, H.; Fournier, P.-E., et al. (2006), "Rickettsia asiatica sp. nov., isolated in Japan", Int J Syst Evol Microbiol 56 (Pt 10): 2365–2368
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  7. ^ La Scola, B.; Meconi, S., et al. (2002), "Emended description of Rickettsia felis (Bouyer et al. 2001), a temperature-dependent cultured bacterium"[permanent dead link], Int J Syst Evol Microbiol 52 (Pt 6): 2035–2041
  8. ^ "Rickettsia". NCBI taxonomy. Bethesda, MD: National Center for Biotechnology Information. Retrieved 8 January 2019.
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  10. ^ Binetruy F, Buysse M, Barosi R, Duron O (February 2020). "Novel Rickettsia genotypes in ticks in French Guiana, South America". Scientific Reports. 10 (1): 2537. Bibcode:2020NatSR..10.2537B. doi:10.1038/s41598-020-59488-0. PMC 7018960. PMID 32054909.
  11. ^ Buysse M, Duron O (May 2020). "Two novel Rickettsia species of soft ticks in North Africa: 'Candidatus Rickettsia africaseptentrionalis' and 'Candidatus Rickettsia mauretanica'". Ticks and Tick-Borne Diseases. 11 (3): 101376. doi:10.1016/j.ttbdis.2020.101376. PMID 32005627. S2CID 210997920.
  12. ^ Sakurai M, Koga R, Tsuchida T, Meng XY, Fukatsu T (July 2005). "Rickettsia symbiont in the pea aphid Acyrthosiphon pisum: novel cellular tropism, effect on host fitness, and interaction with the essential symbiont Buchnera". Applied and Environmental Microbiology. 71 (7): 4069–4075. Bibcode:2005ApEnM..71.4069S. doi:10.1128/AEM.71.7.4069-4075.2005. PMC 1168972. PMID 16000822.
  13. ^ Himler AG, Adachi-Hagimori T, Bergen JE, Kozuch A, Kelly SE, Tabashnik BE, et al. (April 2011). "Rapid spread of a bacterial symbiont in an invasive whitefly is driven by fitness benefits and female bias". Science. 332 (6026): 254–256. Bibcode:2011Sci...332..254H. doi:10.1126/science.1199410. PMID 21474763. S2CID 31371994.
  14. ^ Giorgini M, Bernardo U, Monti MM, Nappo AG, Gebiola M (April 2010). "Rickettsia symbionts cause parthenogenetic reproduction in the parasitoid wasp Pnigalio soemius (Hymenoptera: Eulophidae)". Applied and Environmental Microbiology. 76 (8): 2589–2599. Bibcode:2010ApEnM..76.2589G. doi:10.1128/AEM.03154-09. PMC 2849191. PMID 20173065.
  15. ^ Labruna MB, Walker DH (October 2014). "Rickettsia felis and changing paradigms about pathogenic rickettsiae". Emerging Infectious Diseases. 20 (10): 1768–1769. doi:10.3201/eid2010.131797. PMC 4193273. PMID 25271441.
  16. ^ a b Perlman SJ, Hunter MS, Zchori-Fein E (September 2006). "The emerging diversity of Rickettsia". Proceedings. Biological Sciences. 273 (1598): 2097–2106. doi:10.1098/rspb.2006.3541. PMC 1635513. PMID 16901827.
  17. ^ Unsworth NB, Stenos J, Graves SR, Faa AG, Cox GE, Dyer JR, et al. (April 2007). "Flinders Island spotted fever rickettsioses caused by "marmionii" strain of Rickettsia honei, Eastern Australia". Emerging Infectious Diseases. 13 (4): 566–573. doi:10.3201/eid1304.050087. PMC 2725950. PMID 17553271.
  18. ^ Gillespie JJ, Beier MS, Rahman MS, Ammerman NC, Shallom JM, Purkayastha A, et al. (March 2007). "Plasmids and rickettsial evolution: insight from Rickettsia felis". PLOS ONE. 2 (3): e266. Bibcode:2007PLoSO...2..266G. doi:10.1371/journal.pone.0000266. PMC 1800911. PMID 17342200.  .
  19. ^ "Rickettsia helvetica in Patient with Meningitis, Sweden, 2006" Emerging Infectious Diseases, Volume 16, Number 3 – March 2010
  20. ^ Duh, D., V. Punda-Polic, T. Avsic-Zupanc, D. Bouyer, D.H. Walker, V.L. Popov, M. Jelovsek, M. Gracner, T. Trilar, N. Bradaric, T.J. Kurtti and J. Strus. (2010) Rickettsia hoogstraalii sp. nov., isolated from hard- and soft-bodied ticks. International Journal of Systematic and Evolutionary Microbiology, 60, 977–984; [1], accessed 16 July 2010.
  21. ^ Ferla MP, Thrash JC, Giovannoni SJ, Patrick WM (2013). "New rRNA gene-based phylogenies of the Alphaproteobacteria provide perspective on major groups, mitochondrial ancestry and phylogenetic instability". PLOS ONE. 8 (12): e83383. Bibcode:2013PLoSO...883383F. doi:10.1371/journal.pone.0083383. PMC 3859672. PMID 24349502.
  22. ^ Smith IM, Dunez J, Lelliot RA, Phillips DH, Archer SA (1988). European Handbook of Plant Diseases. Blackwell Scientific Publications. ISBN 978-0-632-01222-0.
  23. ^ Davis, M. J. 1996
  24. ^ C. Michael Hogan. 2008. Guanaco: Lama guanicoe, GlobalTwitcher.com, ed. N. Strömberg 4 March 2011 at the Wayback Machine
  25. ^ Rathore MH (14 June 2016). "Rickettsial infection: Overview". Medscape. Retrieved 16 November 2017.
  26. ^ Emelyanov VV (April 2003). "Mitochondrial connection to the origin of the eukaryotic cell". European Journal of Biochemistry. 270 (8): 1599–1618. doi:10.1046/j.1432-1033.2003.03499.x. PMID 12694174.
  27. ^ Andersson SG, Zomorodipour A, Andersson JO, Sicheritz-Pontén T, Alsmark UC, Podowski RM, et al. (November 1998). "The genome sequence of Rickettsia prowazekii and the origin of mitochondria". Nature. 396 (6707): 133–140. Bibcode:1998Natur.396..133A. doi:10.1038/24094. PMID 9823893.
  28. ^ Kannangara S, DeSimone JA, Pomerantz RJ (September 2005). "Attenuation of HIV-1 infection by other microbial agents". The Journal of Infectious Diseases. 192 (6): 1003–1009. doi:10.1086/432767. PMID 16107952.
  29. ^ Gupta RS (January 2005). "Protein signatures distinctive of alpha proteobacteria and its subgroups and a model for alpha-proteobacterial evolution". Critical Reviews in Microbiology. 31 (2): 101–135. doi:10.1080/10408410590922393. PMID 15986834. S2CID 30170035.
  30. ^ Schroeder CL, Narra HP, Rojas M, Sahni A, Patel J, Khanipov K, et al. (December 2015). "Bacterial small RNAs in the Genus Rickettsia". BMC Genomics. 16: 1075. doi:10.1186/s12864-015-2293-7. PMC 4683814. PMID 26679185.
  31. ^ Schroeder CL, Narra HP, Sahni A, Rojas M, Khanipov K, Patel J, et al. (2016). "Identification and Characterization of Novel Small RNAs in Rickettsia prowazekii". Frontiers in Microbiology. 7: 859. doi:10.3389/fmicb.2016.00859. PMC 4896933. PMID 27375581.
  32. ^ Raoult D, Ogata H, Audic S, Robert C, Suhre K, Drancourt M, Claverie JM (August 2003). "Tropheryma whipplei Twist: a human pathogenic Actinobacteria with a reduced genome". Genome Research. 13 (8): 1800–1809. doi:10.1101/gr.1474603. PMC 403771. PMID 12902375.

External links edit

  • Rickettsia genomes and related information at PATRIC, a Bioinformatics Resource Center funded by NIAID
  • African Tick Bite Fever from the Centers for Disease Control and Prevention

March 17, 2024
rickettsia, genus, nonmotile, gram, negative, nonspore, forming, highly, pleomorphic, bacteria, that, occur, forms, cocci, diameter, bacilli, long, threads, about, long, genus, named, after, howard, taylor, ricketts, honor, pioneering, work, tick, borne, spott. Rickettsia is a genus of nonmotile gram negative nonspore forming highly pleomorphic bacteria that may occur in the forms of cocci 0 1 mm in diameter bacilli 1 4 mm long or threads up to about 10 mm long The genus was named after Howard Taylor Ricketts in honor of his pioneering work on tick borne spotted fever RickettsiaRed stained Rickettsia rickettsii visible in cells of an Ixodid vector tickScientific classificationDomain BacteriaPhylum PseudomonadotaClass AlphaproteobacteriaOrder RickettsialesFamily RickettsiaceaeTribe RickettsieaeGenus Rickettsiada Rocha Lima 1916Species groups and species 8 belli group Candidatus Rickettsia angustus Candidatus Rickettsia kingi Candidatus Rickettsia mendelii Candidatus Rickettsia tarasevichiae Rickettsia bellii Rickettsia canadensis 1 2 Rickettsia monteiroi spotted fever group Candidatus Rickettsia andeanae Candidatus Rickettsia antechini Candidatus Rickettsia barbariae Candidatus Rickettsia goldwasserii Candidatus Rickettsia hungarica Candidatus Rickettsia jingxinensis Candidatus Rickettsia kellyi Candidatus Rickettsia kotlanii Candidatus Rickettsia kulagini Candidatus Rickettsia leptotrombidium Candidatus Rickettsia longicornii Candidatus Rickettsia nicoyana Candidatus Rickettsia principis Candidatus Rickettsia rara Candidatus Rickettsia rioja Candidatus Rickettsia senegalensis Candidatus Rickettsia siciliensis Candidatus Rickettsia tasmanensis Candidatus Rickettsia uralica Candidatus Rickettsia wissemanii Rickettsia aeschlimannii 3 Rickettsia africae 4 Rickettsia akari 1 Rickettsia amblyommatis Rickettsia argasii Rickettsia asembonensis Rickettsia asiatica 5 Rickettsia australis 1 Rickettsia buchneri Rickettsia conorii R conorii subsp caspia R conorii subsp conorii R conorii subsp indica R conorii subsp israelensis Rickettsia cooleyi 6 Rickettsia felis 7 Rickettsia fournieri Rickettsia gravesii Rickettsia heilongjiangensis Rickettsia helvetica Rickettsia honei R honeisubsp marmionii Rickettsia hoogstraalii Rickettsia hulinensis Rickettsia hulinii Rickettsia japonica Rickettsia lusitaniae Rickettsia marmionii Rickettsia martinet Rickettsia massiliae Rickettsia monacensis Rickettsia montanensis Rickettsia moreli Rickettsia parkeri 1 Rickettsia peacockii Rickettsia philipii Rickettsia raoultii Rickettsia rhipicephali Rickettsia rickettsii 1 Rickettsia sibirica subgroup Rickettsia sibirica 1 Rickettsia slovaca Rickettsia tamurae Rickettsia vini typhus group Rickettsia prowazekii 1 Rickettsia typhi 1 Rickettsia incertae sedis Rickettsia limoniae Candidatus Rickettsia colombianensi Candidatus Rickettsia laoensis Candidatus Rickettsia liberiensis Candidatus Rickettsia mahosotiiProperly Rickettsia is the name of a single genus but the informal term rickettsia plural rickettsias usually not capitalised commonly applies to any members of the order Rickettsiales Being obligate intracellular bacteria rickettsias depend on entry growth and replication within the cytoplasm of living eukaryotic host cells typically endothelial cells 9 Accordingly Rickettsia species cannot grow in artificial nutrient culture they must be grown either in tissue or embryo cultures typically chicken embryos are used following a method developed by Ernest William Goodpasture and his colleagues at Vanderbilt University in the early 1930s Many new strains or species of Rickettsia are described each year 10 11 Some Rickettsia species are pathogens of medical and veterinary interest but many Rickettsia are non pathogenic to vertebrates including humans and infect only arthropods often non hematophagous such as aphids or whiteflies 12 13 14 Many Rickettsia species are thus arthropod specific symbionts but are often confused with pathogenic Rickettsia especially in medical literature showing that the current view in rickettsiology has a strong anthropocentric bias 15 Pathogenic Rickettsia species are transmitted by numerous types of arthropods including chigger ticks fleas and lice and are associated with both human and plant diseases 16 Most notably Rickettsia species are the pathogens responsible for typhus rickettsialpox boutonneuse fever African tick bite fever Rocky Mountain spotted fever Flinders Island spotted fever and Queensland tick typhus Australian tick typhus 17 The majority of pathogenic Rickettsia bacteria are susceptible to antibiotics of the tetracycline group Contents 1 Classification 1 1 Spotted fever group 1 2 Typhus group 1 3 Scrub typhus group 2 Flora and fauna pathogenesis 3 Pathophysiology 4 Genomics 5 Naming 6 References 7 External linksClassification editThe classification of Rickettsia into three groups spotted fever typhus and scrub typhus was initially based on serology This grouping has since been confirmed by DNA sequencing All three of these groups include human pathogens The scrub typhus group has been reclassified as a related new genus Orientia but they still are in the order Rickettsiales and accordingly still are grouped with the rest of the rickettsial diseases citation needed Rickettsias are more widespread than previously believed and are known to be associated with arthropods leeches and protists Divisions have also been identified in the spotted fever group and this group likely should be divided into two clades 18 Arthropod inhabiting rickettsiae are generally associated with reproductive manipulation such as parthenogenesis to persist in host lineage 16 In March 2010 Swedish researchers reported a case of bacterial meningitis in a woman caused by Rickettsia helvetica previously thought to be harmless 19 Spotted fever group edit Rickettsia rickettsii Western Hemisphere Rocky Mountain spotted fever dd Rickettsia akari USA former Soviet Union Rickettsialpox dd Rickettsia conorii Mediterranean countries Africa Southwest Asia India Boutonneuse fever dd Rickettsia sibirica Siberia Mongolia northern China Siberian tick typhus or North Asian tick typhus dd Rickettsia australis Australia Australian tick typhus dd Rickettsia felis North and South America Southern Europe Australia Flea borne spotted fever dd Rickettsia japonica Japan Oriental spotted fever dd Rickettsia africae South Africa African tick bite fever dd Rickettsia hoogstraalii Croatia Spain and Georgia USA 20 Unknown pathogenicity dd Typhus group edit Rickettsia prowazekii worldwide Epidemic typhus recrudescent typhus and sporadic typhus dd Rickettsia typhi worldwide Murine typhus endemic typhus dd Scrub typhus group edit The causative agent of scrub typhus formerly known as R tsutsugamushi has been reclassified into the genus Orientia Schematic ribosomal RNA phylogeny of Alphaproteobacteria Magnetococcidae Magnetococcus marinus Caulobacteridae Rhodospirillales Sphingomonadales Rhodobacteraceae Hyphomicrobiales etc Holosporales Rickettsidae Pelagibacterales Pelagibacteraceae Pelagibacter Subgroups Ib II IIIa IIIb IV and V Rickettsiales Proto mitochondria Anaplasmataceae Ehrlichia Anaplasma Wolbachia Neorickettsia Midichloriaceae Midichloria Rickettsiaceae Rickettsia OrientiaThe cladogram of Rickettsidae has been inferred by Ferla et al 21 from the comparison of 16S 23S ribosomal RNA sequences Flora and fauna pathogenesis editPlant diseases have been associated with these Rickettsia like organisms RLOs 22 Beet latent rosette RLO Citrus greening bacterium possibly this citrus greening disease Clover leaf RLO Grapevine infectious necrosis RLO Grapevine Pierce s RLO Grapevine yellows RLO Witch s broom disease on Larix spp Peach phony RLO Papaya Bunchy Top Disease 23 Infection occurs in nonhuman mammals for example species of Rickettsia have been found to afflict the South American guanaco Lama guanacoe 24 Pathophysiology editThis section needs expansion You can help by adding to it August 2013 Main article Typhus Rickettsial organisms are obligate intracellular parasites and invade vascular endothelial cells in target organs damaging them and producing increased vascular permeability with consequent oedema hypotension and hypoalbuminaemia 25 Genomics editCertain segments of rickettsial genomes resemble those of mitochondria 26 The deciphered genome of R prowazekii is 1 111 523 bp long and contains 834 genes 27 Unlike free living bacteria it contains no genes for anaerobic glycolysis or genes involved in the biosynthesis and regulation of amino acids and nucleosides In this regard it is similar to mitochondrial genomes in both cases nuclear host resources are used ATP production in Rickettsia is the same as that in mitochondria In fact of all the microbes known the Rickettsia is probably the closest relative in a phylogenetic sense to the mitochondria Unlike the latter the genome of R prowazekii however contains a complete set of genes encoding for the tricarboxylic acid cycle and the respiratory chain complex Still the genomes of the Rickettsia as well as the mitochondria are frequently said to be small highly derived products of several types of reductive evolution The recent discovery of another parallel between Rickettsia and viruses may become a basis for fighting HIV infection 28 Human immune response to the scrub typhus pathogen Orientia tsutsugamushi appears to provide a beneficial effect against HIV infection progress negatively influencing the virus replication process A probable reason for this actively studied phenomenon is a certain degree of homology between the rickettsiae and the virus namely common epitope s due to common genome fragment s in both pathogens Surprisingly the other infection reported to be likely to provide the same effect decrease in viral load is the virus caused illness dengue fever Comparative analysis of genomic sequences have also identified five conserved signature indels in important proteins which are uniquely found in members of the genus Rickettsia These indels consist of a four amino acid insertion in transcription repair coupling factor Mfd a 10 amino acid insertion in ribosomal protein L19 a one amino acid insertion in FtsZ a one amino acid insertion in major sigma factor 70 and a one amino acid deletion in exonuclease VII These indels are all characteristic of the genus and serve as molecular markers for Rickettsia 29 Bacterial small RNAs play critical roles in virulence and stress adaptation responses Although their specific functions have not been discovered in Rickettsia few studies showed the expression of novel sRNA in human microvascular endothelial cells HMEC infected with Rickettsia 30 31 Genomes of intracellular or parasitic bacteria undergo massive reduction compared to their free living relatives Examples include Rickettsia for alpha proteobacteria T whipplei for Actinobacteria Mycoplasma for Firmicutes the low G C content Gram positive and Wigglesworthia and Buchnera for gamma proteobacteria 32 Naming editThe genus Rickettsia is named after Howard Taylor Ricketts 1871 1910 who studied Rocky Mountain spotted fever in the Bitterroot Valley of Montana and eventually died of typhus after studying that disease in Mexico City In his early part of career he undertook research at Northwestern University on blastomycosis He later worked on Rocky Mountain spotted fever at the University of Chicago and Bitterroot Valley of Montana He was so devoted to his research that on several occasions he injected himself with pathogens to study their effects On account of the apparent similarity between Rocky Mountain fever and typhus fever he became occupied in investigating the latter in Chicago where the disease was epidemic and became a victim of the epidemic in 1910 His investigations and discoveries added materially to the sum of medical knowledge References edit a b c d e f g h Skerman VB McGowan V Sneath PH eds 1989 Approved Lists of Bacterial Names amended ed Washington DC American Society for Microbiology Truper HG De Clari L 1997 Taxonomic note Necessary correction of specific epithets formed as substantives nouns in apposition Int J Syst Bacteriol 47 3 908 909 doi 10 1099 00207713 47 3 908 Beati L Meskini M et al 1997 Rickettsia aeschlimannii sp nov a new spotted fever group rickettsia associated with Hyalomma marginatum ticks Int J Syst Bacteriol 47 2 548 55s4 Kelly PJ Beati L Mason PR Matthewman LA Roux V Raoult D April 1996 Rickettsia africae sp nov the etiological agent of African tick bite fever International Journal of Systematic Bacteriology 46 2 611 614 doi 10 1099 00207713 46 2 611 PMID 8934912 Fujita H Fournier P E et al 2006 Rickettsia asiatica sp nov isolated in Japan Int J Syst Evol Microbiol 56 Pt 10 2365 2368 Billings AN Teltow GJ Weaver SC Walker DH 1998 Molecular characterization of a novel Rickettsia species from Ixodes scapularis in Texas PDF Emerging Infectious Diseases 4 2 305 309 doi 10 3201 eid0402 980221 PMC 2640119 PMID 9621204 Archived from the original PDF on 8 August 2017 La Scola B Meconi S et al 2002 Emended description of Rickettsia felis Bouyer et al 2001 a temperature dependent cultured bacterium permanent dead link Int J Syst Evol Microbiol 52 Pt 6 2035 2041 Rickettsia NCBI taxonomy Bethesda MD National Center for Biotechnology Information Retrieved 8 January 2019 Walker DH 1996 Baron S et al eds Rickettsiae In Barron s Medical Microbiology 4th ed Univ of Texas Medical Branch ISBN 978 0 9631172 1 2 via NCBI Bookshelf Binetruy F Buysse M Barosi R Duron O February 2020 Novel Rickettsia genotypes in ticks in French Guiana South America Scientific Reports 10 1 2537 Bibcode 2020NatSR 10 2537B doi 10 1038 s41598 020 59488 0 PMC 7018960 PMID 32054909 Buysse M Duron O May 2020 Two novel Rickettsia species of soft ticks in North Africa Candidatus Rickettsia africaseptentrionalis and Candidatus Rickettsia mauretanica Ticks and Tick Borne Diseases 11 3 101376 doi 10 1016 j ttbdis 2020 101376 PMID 32005627 S2CID 210997920 Sakurai M Koga R Tsuchida T Meng XY Fukatsu T July 2005 Rickettsia symbiont in the pea aphid Acyrthosiphon pisum novel cellular tropism effect on host fitness and interaction with the essential symbiont Buchnera Applied and 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Rickettsia prowazekii Frontiers in Microbiology 7 859 doi 10 3389 fmicb 2016 00859 PMC 4896933 PMID 27375581 Raoult D Ogata H Audic S Robert C Suhre K Drancourt M Claverie JM August 2003 Tropheryma whipplei Twist a human pathogenic Actinobacteria with a reduced genome Genome Research 13 8 1800 1809 doi 10 1101 gr 1474603 PMC 403771 PMID 12902375 External links editRickettsia genomes and related information at PATRIC a Bioinformatics Resource Center funded by NIAID African Tick Bite Fever from the Centers for Disease Control and Prevention Retrieved from https en wikipedia org w index php title Rickettsia amp oldid 1194466558, wikipedia, wiki, book, books, library,

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