A spirochaete (//) or spirochete is a member of the phylum Spirochaetes (/-/), which contains distinctive diderm (double-membrane) bacteria, most of which have long, helically coiled (corkscrew-shaped or spiraled, hence the name) cells. Spirochaetes are chemoheterotrophic in nature, with lengths between 3 and 500 µm and diameters around 0.09 to at least 3 µm.
|Treponema pallidum spirochaetes which cause syphilis|
|Phylum:||Spirochaetes Garrity & Holt 2001|
|Class:||Spirochaetia Paster 2011|
|Orders & Families|
Spirochaetes are distinguished from other bacterial phyla by the location of their flagella, sometimes called axial filaments, which run lengthwise between the bacterial inner membrane and outer membrane in periplasmic space. These cause a twisting motion which allows the spirochaete to move about. When reproducing, a spirochaete will undergo asexual transverse binary fission. Most spirochaetes are free-living and anaerobic, but there are numerous exceptions. Spirochaetes bacteria are diverse in their pathogenic capacity, the ecological niches that they inhabit, as well as molecular characteristics including guanine-cytosine content and genome size.
Many organisms within the Spirochaetes phylum cause prevalent diseases. Pathogenic members of this phylum include the following:
- Leptospira species, which causes leptospirosis
- Borrelia burgdorferi, B. garinii, and B. afzelii, which cause Lyme disease
- Borrelia recurrentis, which causes relapsing fever
- Treponema pallidum subspecies which cause treponematoses such as syphilis and yaws.
- Brachyspira pilosicoli and Brachyspira aalborgi, which cause intestinal spirochaetosis
Spirochaetes may also cause dementia and may be involved in the pathogenesis of Alzheimer's disease.Salvarsan, the first partially organic synthetic antimicrobial drug in medical history, was effective against spirochaetes only and was primarily used to cure syphilis.
Taxonomy and molecular signaturesEdit
The class currently consists of 14 validly named genera across 4 orders and 5 families. The orders Brachyspirales, Brevinematales and Leptospirales each contain a single family, Brachyspiraceae, Brevinemataceae and Leptospiraceae, respectively. The Spirochaetales order harbours two families, Spirochaetaceae and Borreliaceae. Molecular markers in the form of conserved signature indels (CSIs) and CSPs have been found specific for each of the orders, with the exception of Brevinimetales, that provide a reliable means to demarcate these clades from one another within the diverse phylum. Additional CSIs have been found exclusively shared by each family within the Spirochaetales. These molecular markers are in agreement with the observed phylogenetic tree branching of two monophyletic clades within the Spirochaetales order. CSIs have also been found that further differentiate taxonomic groups within the Borreliaceae family that further delineate evolutionary relationships that are in accordance with physical characteristics such as pathogenicity (viz. Borrelia emend. Borreliella gen. nov.).
A CSI has also been found exclusively shared by all Spirochaetes species. This CSI is a 3 amino acid insert in the flagellar basal body rod protein FlgC which is an important part of the unique endoflagellar structure shared by Spirochaetes species. Given that the CSI is exclusively shared by members within this phylum, it has been postulated that it may be related to the characteristic flagellar properties observed among Spirochaetes species.
Historically, the all families belonging to the Spirochaetes phylum were assigned to a single order, the Spirochaetales. However, the current taxonomic view is more connotative of accurate evolutionary relationships, where the distribution of conserved signature indels are indicative of shared ancestry within each respective clade for which they are specific. These synapomorphic characteristics justify the phylogenetic divisions and are a means to identify each order/family within the phylum.
The currently accepted taxonomy is based on the List of Prokaryotic names with Standing in Nomenclature (LPSN) and National Center for Biotechnology Information (NCBI).
- Phylum Spirochaetes Garrity & Holt 2001 [Spirochaetae Cavalier-Smith 2002; Spirochaetaeota Oren et al. 2015]
- Class Spirochaetae Cavalier-Smith 2002 ["Protozoobacteriales"; "Spirochaetia" Paster 2011]
- Order Leptospirales Gupta et al. 2014
- Order Brachyspirales corrig. Gupta et al. 2014
- Order Brevinematales Gupta et al. 2014
- Order Spirochaetales Buchanan 1917 emend. Gupta et al. 2013
- Genus Exilispira Imachi et al. 2008
- Genus Alkalispirochaeta Sravanthi et al. 2016
- Genus Oceanispirochaeta Subhash & Lee 2017b
- Genus Pleomorphochaeta Arroua et al. 2016
- Genus Sediminispirochaeta Shivani et al. 2016
- Genus Sphaerochaeta Ritalahti et al. 2012 emend. Miyazaki et al. 2014
- Family Borreliaceae Gupta et al. 2014
- Family Spirochaetaceae Swellengrebel 1907
- Genus ?Clevelandina reticulitermitidis ♦ Bermudes et al. 1988
- Genus ?Diplocalyx calotermitidis ♦ (ex Gharagozlou 1968) Bermudes et al. 1988
- Genus ?Hollandina pterotermitidis ♦ (ex To et al. 1978) Bermudes et al. 1988
- Genus ?Pillotina calotermitidis ♦ (ex Hollande and Gharagozlou 1967) Bermudes et al. 1988
- Genus Marispirochaeta Shivani et al. 2017
- Genus Spirochaeta Ehrenberg 1835 emend. Pikuta et al. 2009 ["Ehrenbergia" Gieszczykiewiez 1939 non Spreng.; incl. Salinispira Ben Hania et al. 2015]
- Genus Treponema Schaudinn 1905 emend Abt et al. 2013 ["Spironema" Vuillemin 1905 non Klebs 1892; "Microspironema" Stiles & Pfender 1905; incl. Rectinema Koelschbach et al. 2017]
- Class Spirochaetae Cavalier-Smith 2002 ["Protozoobacteriales"; "Spirochaetia" Paster 2011]
♦ Type strain lost or not available
♪ Prokaryotes where no pure (axenic) cultures are isolated or available, i. e. not cultivated or can not be sustained in culture for more than a few serial passages
♠ Strains found at the National Center for Biotechnology Information (NCBI) but not listed in the List of Prokaryotic names with Standing in Nomenclature (LSPN)
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