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Spirochaete

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(Redirected from Spirochaetae) Phylum of bacteria This article is about the bacterial phylum. For spiral-shaped bacteria in general, see spiral bacteria.

Spirochaetes
Treponema pallidum, a spirochaete which causes syphilis
Scientific classification Edit this classification
Domain: Bacteria
Phylum: Spirochaetota
Garrity and Holt 2021
Class: Spirochaetia
Paster 2020
Orders
Synonyms
  • Spirochaetota:
    • "Protozoobacteriales" Prévot 1958
    • "Spirochaetae" Cavalier-Smith 2002
    • "Spirochaetaeota" Oren et al. 2015
    • "Spirochaetes" Garrity and Holt 2001
    • "Spirochaetota" Whitman et al. 2018
  • Spirochaetia:
    • Spirochaetes Cavalier-Smith 2002
    • "Spirochaetia" Cavalier-Smith 2020
    • "Leptospiria" Cavalier-Smith 2020
Cross section of a spirochaete cell
Endoflagella Components. Legend: Fig. 1: A cross-section of a typical spirochete cell showing endoflagella located in the periplasm between the inner cytoplasmic membrane and the outer membrane. Periplasm, consisting of a gel-like matrix, provides a semi-stable medium to secure endoflagella during rotation. The axial filament, indicated in red, is composed of bundles of endoflagella.
Fig. 2: A side-view of a spirochete cell which shows two axial filaments in opposing motion. One axial filament rotates in a clockwise orientation; an adjacent axial filament rotates in a counter-clockwise orientation. Rotation of the endoflagella creates torsion and drives the corkscrew rotation of the cell.
Fig. 3: An expanded view of the cellular membranes that surround endoflagellum. Both the inner and outer membrane contain a phospholipid bi-layer, with non-polar fatty acid chains in-ward of polar phosphorus heads. Peptidoglycan, the cell wall, provides structure in bacterial microorganisms. Axial filaments are superior to the peptidoglycan.

A spirochaete (/ˈspaɪroʊˌkiːt/) or spirochete is a member of the phylum Spirochaetota (also called Spirochaetes /ˌspaɪroʊˈkiːtiːz/), which contains distinctive diderm (double-membrane) Gram-negative 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.

Spirochaetes are distinguished from other bacterial phyla by the location of their flagella, called endoflagella, or periplasmic flagella, which are sometimes called axial filaments. Endoflagella are anchored at each end (pole) of the bacterium within the periplasmic space (between the inner and outer membranes) where they project backwards to extend the length of the cell. These cause a twisting motion which allows the spirochaete to move. When reproducing, a spirochaete will undergo asexual transverse binary fission. Most spirochaetes are free-living and anaerobic, but there are numerous exceptions. Spirochaete bacteria are diverse in their pathogenic capacity and the ecological niches that they inhabit, as well as molecular characteristics including guanine-cytosine content and genome size.

Pathogenicity

Many organisms within the Spirochaetota phylum cause prevalent diseases. Pathogenic members of this phylum include the following:

Salvarsan, the first partially organic synthetic antimicrobial drug in medical history, was effective against spirochaetes and primarily used to cure syphilis. Additionally, oral spirochaetes are known to play a significant role in the pathogenesis of human periodontal disease.

Taxonomy and molecular signatures

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.). However, this study has been criticized, and other studies using different approaches do not support the proposed split. The new naming system for the Lyme and relapsing fever Borrelia has not been adopted by the scientific literature.

A CSI has also been found exclusively shared by all Spirochaetota 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 Spirochaetota 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 Spirochaetota species.

Historically, all families belonging to the Spirochaetota phylum were assigned to a single order, the Spirochaetales. However, the current taxonomic view is more connotative of accurate evolutionary relationships. The distribution of a CSI is indicative of shared ancestry within the clade for which it is specific. It thus functions as a synapomorphic characteristic, so that the distributions of different CSIs provide the means to identify different orders and families within the phylum and so justify the phylogenetic divisions.

Phylogeny

See also: Bacterial taxonomy
16S rRNA based LTP_08_2023 120 single copy marker proteins based GTDB 08-RS214
Spirochaetia
Leptospirales
Leptospiraceae

Turneriella

Leptonema

Leptospira

Brevinematales
Brevinemataceae

Brevinema

Brachyspirales
Brachyspiraceae

Brachyspira

Spirochaetales
"Exilispiraceae"

Exilispira

Thermospiraceae

Thermospira

Rectinemataceae

"Rectinema"

Treponemataceae

Gracilinema

Zuelzera

Breznakiella

Helmutkoenigia

Leadbettera

Treponema primitia

Brucepastera

Teretinema

Treponema

Treponema species-group 2

Spirochaeta thermophila

Sediminispirochaeta

Marispirochaeta

Sphaerochaetaceae

Pleomorphochaeta

Bullifex

Sphaerochaeta

Spirochaetaceae

Spirochaeta lutea

Salinispira

Spirochaeta

Spirochaeta halophila

Alkalispirochaeta

Spirochaetaceae 2

Spirochaeta species-group 2

Oceanispirochaeta

Spirochaeta cellobiosiphila

Thiospirochaeta

Spirochaeta aurantia

Borreliaceae

Borrelia

Borreliella

"Leptospirae"
"Leptospiria"
"Turneriellales"
"Turneriellaceae"

Turneriella

Leptospirales
"Leptonemataceae"

Leptonema

Leptospiraceae

Leptospira

"Euspirochaetae"
"Brevinematia"
Brevinematales
Brevinemataceae

Brevinema

"Brachyspirae"
Brachyspirales
Brachyspiraceae

Brachyspira

"Exilispiria"
"Exilispirales"
"Exilispiraceae"

Exilispira

Spirochaetia
"Borreliales"
Borreliaceae

Borrelia

Borreliella

"Entomospirales"
"Entomospiraceae"

"Entomospira"

DSM‑17781
DSM‑17781

Spirochaeta cellobiosiphila

Spirochaetales_E
DSM‑19205

Thiospirochaeta

Spirochaetaceae_B

Spirochaeta species-group 2

Oceanispirochaeta

"Sphaerochaetales"
Sphaerochaetaceae

Parasphaerochaeta

Sphaerochaeta

Bullifex

"Ca. Ornithospirochaeta"

"Marispirochaetales"
"Marispirochaetaceae"

Marispirochaeta

"Sediminispirochaetales"
"Sediminispirochaetaceae"

Sediminispirochaeta

Spirochaetales_A
Spirochaetaceae_A

Spirochaeta thermophila

"Salinispirales"
"Salinispiraceae"

Spirochaeta lutea

Salinispira

DSM‑8902

Spirochaeta africana

"Alkalispirochaetaceae"

Alkalispirochaeta

"Treponematales"
"Rectinemataceae"

Rectinema

Breznakiellaceae

Gracilinema

Breznakiella

Leadbettera

Treponema primitia

Treponemataceae

"Ca. Gallitreponema"

Treponema species-group 2

"Ca. Avitreponema"

Brucepastera

Treponema

Taxonomy

The currently accepted taxonomy is based on the List of Prokaryotic names with Standing in Nomenclature (LPSN) and National Center for Biotechnology Information (NCBI).

See also

References

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  15. Schwan TG (June 1996). "Ticks and Borrelia: model systems for investigating pathogen-arthropod interactions". Infectious Agents and Disease. 5 (3): 167–181. PMID 8805079.
  16. Amat Villegas I, Borobio Aguilar E, Beloqui Perez R, de Llano Varela P, Oquiñena Legaz S, Martínez-Peñuela Virseda JM (January 2004). "". Gastroenterol Hepatol (in Spanish). 27 (1): 21–3. doi:10.1016/s0210-5705(03)70440-3. PMID 14718105.
  17. Yousefi L, Leylabadlo HE, Pourlak T, Eslami H, Taghizadeh S, Ganbarov K, et al. (July 2020). "Oral spirochetes: Pathogenic mechanisms in periodontal disease". Microbial Pathogenesis. 144: 104193. doi:10.1016/j.micpath.2020.104193. PMID 32304795. S2CID 215818931.
  18. Schoch CL, Ciufo S, Domrachev M, Hotton CL, Kannan S, Khovanskaya R, et al. "TherSpirochaetia". National Center for Biotechnology Information (NCBI) taxonomy database. Retrieved 25 October 2016.
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  21. Adeolu M, Gupta RS (2014). "A phylogenomic and molecular marker based proposal for the division of the genus Borrelia into two genera: the emended genus Borrelia containing only the members of the relapsing fever Borrelia, and the genus Borreliella gen. nov. containing the members of the Lyme disease Borrelia (Borrelia burgdorferi sensu lato complex)". Antonie van Leeuwenhoek. 105 (6): 1049–1072. doi:10.1007/s10482-014-0164-x. PMID 24744012.
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