毛螺菌科

梭菌目的一科细菌

毛螺菌科(學名:Lachnospiraceae)是梭菌目的一科細菌,主要存在在人類和哺乳動物的腸道菌群中。[3][4][5] 該科的所有種均為厭氧菌。該科成員通過產生丁酸可以預防人類結腸癌[6] 已經發現,毛螺菌科會導致無菌小鼠發生糖尿病[7]

毛螺菌科
科學分類 編輯
域: 細菌域 Bacteria
門: 芽孢桿菌門 Bacillota
綱: 梭菌綱 Clostridia
目: 梭菌目 Clostridiales
科: 毛螺菌科 Lachnospiraceae
Rainey, 2010[1]
[2]

參見正文

下級分類

編輯

本科包括以下屬:

  • Abyssivirga [8]
  • Acetatifactor Pfeiffer et al. 2013
    • Acetatifactor muris Pfeiffer et al. 2013[9]
  • 聚乙酸菌屬 Acetitomaculum [10]
  • Agathobacter Rosero et al. 2016[11]
    • Agathobacter rectalis (Hauduroy et al. 1937) Rosero et al. 2016
    • Agathobacter ruminis Rosero et al. 2016
  • Anaerolentibacter Yan et al. 2024
    • Anaerolentibacter hominis Yan et al. 2024[12]
  • Anaeromicropila Ueki et al. 2023[13]
    • Anaeromicropila herbilytica Ueki et al. 2023
    • Anaeromicropila populeti (Sleat and Mah 1985) Ueki et al. 2023
  • Anaeropeptidivorans Köller et al. 2022
    • Anaeropeptidivorans aminofermentans Köller et al. 2022[14]
  • Anaerostipes Schwiertz et al. 2002[10]
    • Anaerostipes avistercoris Gilroy et al. 2021
    • Anaerostipes butyraticus Eeckhaut et al., 2010
    • Anaerostipes caccae Schwiertz et al., 2002
    • Anaerostipes excrementavium Gilroy et al. 2021
    • Anaerostipes faecis Forster et al. 2022[15]
    • Anaerostipes hadrus (Moore et al. 1976) Allen-Vercoe et al. 2013[16]
    • Anaerostipes rhamnosivorans Bui et al., 2014
  • 經黏液真桿菌屬 Blautia Liu et al. 2008,布勞特氏菌屬
  • Brotaphodocola Afrizal et al. 2023[17]
    • Brotaphodocola catenula Afrizal et al. 2023
  • 丁酸弧菌屬 Butyrivibrio Bryant and Small 1956[10]
  • 卡氏菌屬 Catonella Moore and Moore 1994[10]
  • Cellulosilyticum Cai and Dong 2010
    • Cellulosilyticum lentocellum (Murray et al. 1987) Cai and Dong 2010
    • Cellulosilyticum pullistercoris Gilroy et al. 2021
    • Cellulosilyticum ruminicola Cai and Dong 2010
  • Chakrabartyella Pardesi et al. 2023
    • Chakrabartyella piscis Pardesi et al. 2023[18]
  • Chordicoccus Gaffney et al. 2023
    • Chordicoccus furentiruminis Gaffney et al. 2023[19]
  • Claveliimonas Hisatomi et al. 2023[20]
    • Claveliimonas bilis Hisatomi et al. 2023
    • Claveliimonas monacensis (Zenner et al. 2021) Hisatomi et al. 2023
  • 糞球菌屬 Coprococcus Holdeman and Moore 1974 [10]
  • Cuneatibacter Lagkouvardos et al. 2016[21]
    • Cuneatibacter caecimuris Lagkouvardos et al. 2016
  • Diplocloster Chaplin et al. 2022
    • Diplocloster agilis Chaplin et al. 2022
    • Diplocloster hominis Yan et al. 2024[22]
    • Diplocloster modestus Chaplin et al. 2022
  • Dorea Taras et al. 2002
    • Dorea acetigenes Hitch et al. 2022
    • Dorea ammoniilytica Hitch et al. 2022
    • Dorea amylophila Hitch et al. 2023[23]
    • Dorea faecigallinarum Gilroy et al. 2021
    • Dorea faecipullorum Gilroy et al. 2021
    • Dorea formicigenerans (Holdeman and Moore 1974) Taras et al. 2002
    • Dorea gallistercoris Gilroy et al. 2021
    • Dorea hominis Liu et al. 2022
    • Dorea intestinavium Gilroy et al. 2021
    • Dorea intestinigallinarum Gilroy et al. 2021
    • Dorea longicatena Taras et al. 2002
    • Dorea massiliensis Pfleiderer et al. 2013
    • Dorea merdavium Gilroy et al. 2021
    • Dorea phocaeensis Takakura et al. 2019
    • Dorea stercoravium Gilroy et al. 2021
  • 艾森伯格菌屬 Eisenbergiella Amir et al. 2014
  • Enterocloster Haas and Blanchard, 2020
    • Enterocloster alcoholdehydrogenati Oikawa et al. 2023
    • Enterocloster aldenensis (Warren et al. 2007) Haas and Blanchard 2020,也拼作:Enterocloster aldensis
    • Enterocloster asparagiformis (Mohan et al. 2007) Haas and Blanchard 2020
    • Enterocloster bolteae (Song et al. 2003) Haas and Blanchard 2020
    • Enterocloster citroniae (Warren et al. 2007) Haas and Blanchard, 2020
    • Enterocloster clostridioformis (Burri and Ankersmit 1906) Haas and Blanchard 2020
    • Enterocloster excrementigallinarum Gilroy et al. 2021
    • Enterocloster excrementipullorum Gilroy et al. 2021
    • Enterocloster faecavium Gilroy et al. 2021
    • Enterocloster lavalensis (Domingo et al. 2009) Haas and Blanchard 2020
  • Faecalicatena Sakamoto et al. 2017[24]
    • Faecalicatena absiana Shin et al. 2022
    • Faecalicatena acetigenes Hitch et al. 2022
    • Faecalicatena contorta (Prévot 1947) Sakamoto et al. 2017
    • Faecalicatena faecalis Oh et al. 2023[25]
    • Faecalicatena fissicatena (Taylor 1972) Sakamoto et al. 2017
    • Faecalicatena orotica (Wachsman and Barker 1954) Sakamoto et al. 2017
  • Faecalimonas Sakamoto et al. 2017[26]
    • Faecalimonas umbilicata Sakamoto et al. 2017
  • Fusibacillus Bai et al. 2024
    • Fusibacillus kribbianus Bai et al. 2024[27]
  • Fusicatenibacter Takada et al. 2013
    • Fusicatenibacter faecihominis Afrizal et al. 2023[28]
    • Fusicatenibacter intestinigallinarum Gilroy et al. 2021
    • Fusicatenibacter intestinipullorum Gilroy et al. 2021
    • Fusicatenibacter merdavium Gilroy et al. 2021
    • Fusicatenibacter saccharivorans Takada et al. 2013
  • Hespellia Whitehead et al. 2004
    • Hespellia porcina Whitehead et al. 2004
    • Hespellia stercorisuis Whitehead et al. 2004
  • Hominifimenecus Afrizal et al. 2023[29]
    • Hominifimenecus microfluidus Afrizal et al. 2023
  • Hominisplanchenecus Afrizal et al. 2023[30]
    • Hominisplanchenecus faecis Afrizal et al. 2023
    • Hominisplanchenecus murintestinalis Afrizal et al. 2022
  • Hominiventricola Afrizal et al. 2023[31]
    • Hominiventricola filiformis Afrizal et al. 2023
  • Holtiella Allen-Vercoe et al. 2023
    • Holtiella tumoricola Allen-Vercoe et al. 2023[32]
  • 約翰森氏菌屬 Johnsonella Moore and Moore 1994[10]
  • 口腔毛絨厭氧桿菌 Lachnoanaerobaculum Hedberg et al. 2012
  • Lachnobacterium Whitford et al. 2001[10]
  • 毛螺菌屬 Lachnospira Bryant and Small 1956 [10]
  • 淚珠狀產孢菌屬 Lacrimispora Haas and Blanchard 2020Name
    • Lacrimispora aerotolerans (van Gylswyk and van der Toorn 1987) Haas and Blanchard 2020
    • Lacrimispora algidixylanolytica (Broda et al. 2000) Haas and Blanchard 2020
    • 杏仁香淚珠狀產孢菌 Lacrimispora amygdalina (Parshina et al. 2003) Haas and Blanchard 2020
    • Lacrimispora celerecrescens (Palop et al. 1989) Haas and Blanchard 2020
    • Lacrimispora defluvii Urvashi et al. 2022
    • 印度香淚珠狀產孢菌 Lacrimispora indica (Gundawar et al. 2019) Urvashi et al. 2022
    • Lacrimispora indolis (McClung and McCoy 1957) Haas and Blanchard 2020
    • Lacrimispora saccharolytica (Murray et al. 1982) Haas and Blanchard 2020
    • 楔狀淚珠狀產孢菌 Lacrimispora sphenoides (Douglas et al. 1919) Haas and Blanchard 2020
    • Lacrimispora xylanisolvens Heng and Kittelmann 2024
    • Lacrimispora xylanolytica (Rogers and Baecker 1991) Haas and Blanchard 2020
    • Lacrimispora xylanolytica (Scholten-Koerselman et al. 1988) Urvashi et al. 2022
  • Lientehia Abdugheni et al. 2023
    • Lientehia hominis Abdugheni et al. 2023[33]
  • Marvinbryantia Wolin et al. 2008
    • Marvinbryantia formatexigens (Wolin et al. 2004) Wolin et al. 2008
  • 瘤胃球菌屬 Mediterraneibacter Togo et al. 2019Name
    • Mediterraneibacter agrestimuris Afrizal et al. 2022
    • Mediterraneibacter avicola Gilroy et al. 2021
    • Mediterraneibacter butyricigenes Kim et al. 2019
    • Mediterraneibacter caccavium Gilroy et al. 2021
    • Mediterraneibacter caccogallinarum Gilroy et al. 2021
    • Mediterraneibacter catenae Wongkuna et al. 2021
    • Mediterraneibacter colneyensis Gilroy et al. 2021
    • Mediterraneibacter cottocaccae Gilroy et al. 2021
    • Mediterraneibacter excrementavium Gilroy et al. 2021
    • Mediterraneibacter excrementigallinarum Gilroy et al. 2021
    • Mediterraneibacter excrementipullorum Gilroy et al. 2021
    • Mediterraneibacter faecavium Gilroy et al. 2021
    • Mediterraneibacter faecigallinarum Gilroy et al. 2021
    • Mediterraneibacter faecipullorum Gilroy et al. 2021
    • Mediterraneibacter faecis (Kim et al. 2011) Togo et al. 2019[34]
    • Mediterraneibacter gallistercoris Gilroy et al. 2021
    • Mediterraneibacter glycyrrhizinilyticus (Sakuma et al. 2006) Togo et al. 2019
    • Mediterraneibacter gnavus (Moore et al. 1976) Togo et al. 2023[34]
    • Mediterraneibacter guildfordensis Gilroy et al. 2021
    • Mediterraneibacter hominis Liu et al. 2022
    • Mediterraneibacter intestinavium Gilroy et al. 2021
    • Mediterraneibacter intestinigallinarum Gilroy et al. 2021
    • Mediterraneibacter intestinipullorum Gilroy et al. 2021
    • Mediterraneibacter lactaris (Moore et al. 1976) Togo et al. 2018[34]
    • Mediterraneibacter massiliensis Togo et al. 2019[34]
    • Mediterraneibacter merdavium Gilroy et al. 2021
    • Mediterraneibacter merdigallinarum Gilroy et al. 2021
    • Mediterraneibacter merdipullorum Gilroy et al. 2021
    • Mediterraneibacter norfolkensis Gilroy et al. 2021
    • Mediterraneibacter norwichensis Gilroy et al. 2021
    • Mediterraneibacter ornithocaccae Gilroy et al. 2021
    • Mediterraneibacter pullicola Gilroy et al. 2021
    • Mediterraneibacter pullistercoris Gilroy et al. 2021
    • Mediterraneibacter quadrami Gilroy et al. 2021
    • Mediterraneibacter stercoravium Gilroy et al. 2021
    • Mediterraneibacter stercorigallinarum Gilroy et al. 2021
    • Mediterraneibacter stercoripullorum Gilroy et al. 2021
    • Mediterraneibacter surreyensis Gilroy et al. 2021
    • Mediterraneibacter tabaqchaliae Gilroy et al. 2021
    • Mediterraneibacter torques (Holdeman and Moore 1974) Togo et al. 2018[34]
    • Mediterraneibacter vanvlietii Gilroy et al. 2021
  • Mobilitalea Podosokorskaya et al. 2014[35]
  • Moryella Carlier et al. 2007
  • Oliverpabstia Wylensek et al. 2021
    • Oliverpabstia intestinalis Wylensek et al. 2021[36]
  • Oribacterium Carlier et al. 2004[10]
    • Oribacterium asaccharolyticum Sizova et al. 2014[37]
    • Oribacterium parvum Sizova et al. 2014
    • Oribacterium sinus Carlier et al. 2004
  • Otoolea Afrizal et al. 2023
    • Otoolea muris Afrizal et al. 2023[38]
  • Parasporobacterium Lomans et al. 2004
    • Parasporobacterium paucivorans Lomans et al. 2004[39]
  • Porcincola Wylensek et al. 2021
    • Porcincola intestinalis Wylensek et al. 2021[40]
  • 假丁酸弧菌屬 Pseudobutyrivibrio van Gylswyk et al. 1996[10]
  • 錢乙菌屬 Qiania Liu et al. 2021,以中國醫學家錢乙的名字命名
  • Robinsoniella Cotta et al. 2009
    • Robinsoniella peoriensis Cotta et al. 2009[41]
  • 羅斯氏菌屬 Roseburia Stanton and Savage, 1983[10]
  • Shuttleworthella Deshmukh and Oren 2024
    • Shuttleworthella satelles (Downes et al. 2002) Deshmukh and Oren 2024[42]
  • Sellimonas Seo et al. 2016
    • Sellimonas catena Hisatomi et al. 2023
    • Sellimonas intestinalis Seo et al. 2016
    • Sellimonas monacensis Zenner et al. 2021[43]
  • Shuttleworthella Deshmukh and Oren 2024,以英國微生物學家Cyril Shuttleworth的名字命名
    • Shuttleworthella satelles (Downes et al. 2002) Deshmukh and Oren 2024[44]
  • Shuttleworthia Downes et al. 2002[10],以英國微生物學家Cyril Shuttleworth的名字命名
    • Shuttleworthia satelles Downes et al. 2002
  • Sporobacterium Mechichi et al. 1999[10]
    • Sporobacterium olearium Mechichi et al. 1999[45]
  • Stomatobaculum Sizova et al. 2013
    • Stomatobaculum longum Sizova et al. 2013[46]
  • Suipraeoptans Wylensek et al. 2021
    • Suipraoptans intestinalis Wylensek et al. 2021[47]
  • 互營球菌屬 Syntrophococcus Krumholz and Bryant 1986
  • Velocimicrobium Wylensek et al. 2021
    • Velocimicrobium porci Wylensek et al. 2021[48]
  • 無已菌屬 Wujia Liu et al. 2021,以金代醫學家成無己的名字命名

參考文獻

編輯
  1. ^ LPSN bacterio.net. [2018-07-11]. (原始內容存檔於2018-07-09). 
  2. ^ List of genera included in families - Lachnospiraceae. List of Prokaryotic Names with Standing in Nomenclature. [26 June 2016]. (原始內容存檔於2018-10-25). 
  3. ^ editors, Phyllis Kanki, Darrell Jay Grimes,. Infectious diseases selected entries from the Encyclopedia of sustainability science and technology. New York: Springer. 2013. ISBN 1-4614-5719-X. 
  4. ^ UniProt. [2018-07-11]. (原始內容存檔於2018-07-11). 
  5. ^ editors, Paul De Vos ... [et al.],. Bergey's manual of systematic bacteriology. 2nd. Dordrecht: Springer. 2009. ISBN 0-387-68489-1. 
  6. ^ Meehan, C. J.; Beiko, R. G. A Phylogenomic View of Ecological Specialization in the Lachnospiraceae, a Family of Digestive Tract-Associated Bacteria. Genome Biology and Evolution. 12 March 2014, 6 (3): 703–713. doi:10.1093/gbe/evu050. 
  7. ^ Kameyama, Keishi; Itoh, Kikuji. Intestinal Colonization by a Lachnospiraceae Bacterium Contributes to the Development of Diabetes in Obese Mice. Microbes and Environments. 2014, 29 (4): 427–430 [2018-07-11]. ISSN 1342-6311. PMC 4262368 . doi:10.1264/jsme2.ME14054. (原始內容存檔於2018-01-18). 
  8. ^ Abyssivirga. www.uniprot.org. [2018-07-11]. (原始內容存檔於2019-06-09) (英語). 
  9. ^ Pfeiffer N, Desmarchelier C, Blaut M, Daniel H, Haller D, Clavel T. Acetatifactor muris gen. nov., sp. nov., a novel bacterium isolated from the intestine of an obese mouse. Arch Microbiol 2012; 194:901-907.
  10. ^ 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 10.11 10.12 eol. [2018-07-11]. (原始內容存檔於2018-06-28). 
  11. ^ Agathobacter. www.uniprot.org. [2018-07-11]. (原始內容存檔於2017-08-04) (英語). 
  12. ^ Yan Y, Zhao QH, Xu C, Wei RQ, Jiang H, Liu SJ. Anaerolentibacter hominis gen. nov. sp. nov., Diplocloster hominis sp. nov. and Pilosibacter fragilis gen. nov. sp. nov., isolated from human faeces. Int J Syst Evol Microbiol 2024; 74:6359.
  13. ^ Ueki A, Tonouchi A, Kaku N, Ueki K. Anaeromicropila herbilytica gen. nov., sp. nov., a plant polysaccharide-decomposing anaerobic bacterium isolated from anoxic soil subjected to reductive soil disinfestation, and reclassification of Clostridium populeti as Anaeromicropila populeti comb. nov. Int J Syst Evol Microbiol 2023; 73:5695.
  14. ^ Koller N, Hahnke S, Zverlov V, Wibberg D, Klingl A, Busche T, Klocke M, Puhler A, Schluter A, Liebl W, et al. Anaeropeptidivorans aminofermentans gen. nov., sp. nov., a mesophilic proteolytic salt-tolerant bacterium isolated from a laboratory-scale biogas fermenter, and emended description of Clostridium colinum. Int J Syst Evol Microbiol 2022; 72:5668.
  15. ^ Forster SC, Clare S, Beresford-Jones BS, Harcourt K, Notley G, Stares MD, Kumar N, Soderholm AT, Adoum A, Wong H, et al. Identification of gut microbial species linked with disease variability in a widely used mouse model of colitis. Nat Microbiol 2022; 7:590-599.
  16. ^ Allen-Vercoe E, Daigneault M, White A, Panaccione R, Duncan SH, Flint HJ, O'Neal L, Lawson PA. Anaerostipes hadrus comb. nov., a dominant species within the human colonic microbiota; reclassification of Eubacterium hadrum Moore et al. 1976. Anaerobe 2012; 18:523-529.
  17. ^ Afrizal A, Hitch TCA, Viehof A, Treichel N, Riedel T, Abt B, Buhl EM, Kohlheyer D, Overmann J, Clavel T. Anaerobic single-cell dispensing facilitates the cultivation of human gut bacteria. Environ Microbiol 2022; 24:3861-3881.
  18. ^ Pardesi B, Roberton AM, Wollmuth EM, Angert ER, Rosendale DI, White WL, Clements KD. Chakrabartyella piscis gen. nov., sp. nov., a member of the family Lachnospiraceae, isolated from the hindgut of the marine herbivorous fish Kyphosus sydneyanus. Int J Syst Evol Microbiol 2023; 73:6100.
  19. ^ Gaffney J, Embree J, Gilmore S, Embree M. Chordicoccus furentiruminis, gen. nov., sp. nov., a novel succinic acid producing bacterium isolated from a steer on a high grain diet. Int J Syst Evol Microbiol 2023; 73:5751.
  20. ^ Hisatomi A, Kastawa NWEPG, Song I, Ohkuma M, Fukiya S, Sakamoto M. Claveliimonas bilis gen. nov., sp. nov., deoxycholic acid-producing bacteria isolated from human faeces, and reclassification of Sellimonas monacensis Zenner et al. 2021 as Claveliimonas monacensis comb. nov. Int J Syst Evol Microbiol 2023; 73:6030.
  21. ^ Cuneatibacter. www.uniprot.org. [2018-07-11]. (原始內容存檔於2017-12-24) (英語). 
  22. ^ Yan Y, Zhao QH, Xu C, Wei RQ, Jiang H, Liu SJ. Anaerolentibacter hominis gen. nov. sp. nov., Diplocloster hominis sp. nov. and Pilosibacter fragilis gen. nov. sp. nov., isolated from human faeces. Int J Syst Evol Microbiol 2024; 74:6359.
  23. ^ Hitch TCA, Riedel T, Oren A, Overmann J, Lawley TD, Clavel T. Automated analysis of genomic sequences facilitates high-throughput and comprehensive description of bacteria. ISME Commun 2021; 1:16.
  24. ^ Parker, Charles Thomas; Garrity, George M. Nomenclature Abstract for Faecalicatena Sakamoto et al. 2016.. The NamesforLife Abstracts. doi:10.1601/nm.29879 (英語). 
  25. ^ Oh BS, Kim JS, Ryu SW, Yu SY, Lee JS, Park SH, Kang SW, Lee J, Lee MK, Lee KH, et al. Faecalicatena faecalis sp. nov., a moderately alkaliphilic bacterial strain isolated from swine faeces. Antonie Van Leeuwenhoek 2021; 114:2091-2099.
  26. ^ Parker, Charles Thomas; Garrity, George M. Nomenclature Abstract for Faecalimonas Sakamoto et al. 2016.. The NamesforLife Abstracts. doi:10.1601/nm.29877 (英語). 
  27. ^ Bai L, Paek J, Shin Y, Kim H, Kim SH, Shin JH, Kook JK, Chang YH. Description of Fusibacillus kribbianus gen. nov., sp. nov., a fusiform anaerobe isolated from pig feces. Anaerobe 2023; 0:102792.
  28. ^ Afrizal A, Hitch TCA, Viehof A, Treichel N, Riedel T, Abt B, Buhl EM, Kohlheyer D, Overmann J, Clavel T. Anaerobic single-cell dispensing facilitates the cultivation of human gut bacteria. Environ Microbiol 2022; 24:3861-3881.
  29. ^ Afrizal A, Hitch TCA, Viehof A, Treichel N, Riedel T, Abt B, Buhl EM, Kohlheyer D, Overmann J, Clavel T. Anaerobic single-cell dispensing facilitates the cultivation of human gut bacteria. Environ Microbiol 2022; 24:3861-3881.
  30. ^ Afrizal A, Hitch TCA, Viehof A, Treichel N, Riedel T, Abt B, Buhl EM, Kohlheyer D, Overmann J, Clavel T. Anaerobic single-cell dispensing facilitates the cultivation of human gut bacteria. Environ Microbiol 2022; 24:3861-3881.
  31. ^ Afrizal A, Hitch TCA, Viehof A, Treichel N, Riedel T, Abt B, Buhl EM, Kohlheyer D, Overmann J, Clavel T. Anaerobic single-cell dispensing facilitates the cultivation of human gut bacteria. Environ Microbiol 2022; 24:3861-3881.
  32. ^ Allen-Vercoe E, Daigneault MC, Vancuren SJ, Cochrane K, O』Neal LL, Sankaranarayanan K, Lawson PA. Holtiella tumoricola gen. nov. sp. nov., isolated from a human clinical sample. International Journal of Systematic and Evolutionary Microbiology 2023; 73:0.
  33. ^ Abdugheni R, Li DH, Wang YJ, Du MX, Zhou N, Liu C, Liu SJ. Acidaminococcus homini s sp. nov., Amedibacillus hominis sp. nov., Lientehia hominis gen. nov. sp. nov., Merdimmobilis hominis gen. nov. sp. nov., and Paraeggerthella hominis sp. nov., isolated from human faeces. Int J Syst Evol Microbiol 2023; 73:5648.
  34. ^ 34.0 34.1 34.2 34.3 34.4 Togo AH, Diop A, Bittar F, Maraninchi M, Valero R, Armstrong N, Dubourg G, Labas N, Richez M, Delerce J, et al. Description of Mediterraneibacter massiliensis, gen. nov., sp. nov., a new genus isolated from the gut microbiota of an obese patient and reclassification of Ruminococcus faecis, Ruminococcus lactaris, Ruminococcus torques, Ruminococcus gnavus and Clostridium glycyrrhizinilyticum as Mediterraneibacter faecis comb. nov., Mediterraneibacter lactaris comb. nov., Mediterraneibacter torques comb. nov., Mediterraneibacter gnavus comb. nov. and Mediterraneibacter glycyrrhizinilyticus comb. nov. Antonie Van Leeuwenhoek 2018; 111:2107-2128.
  35. ^ UniProt. [2018-07-11]. (原始內容存檔於2017-12-26). 
  36. ^ Wylensek D, Hitch TCA, Riedel T, Afrizal A, Kumar N, Wortmann E, Liu T, Devendran S, Lesker TR, Hernandez SB, et al. A collection of bacterial isolates from the pig intestine reveals functional and taxonomic diversity. Nat Commun 2020; 11:6389.
  37. ^ Sizova MV, Muller PA, Stancyk D, Panikov NS, Mandalakis M, Hazen A, Hohmann T, Doerfert SN, Fowle W, Earl AM, et al. Oribacterium parvum sp. nov. and Oribacterium asaccharolyticum sp. nov., obligately anaerobic bacteria from the human oral cavity, and emended description of the genus Oribacterium. Int J Syst Evol Microbiol 2014; 64:2642-2649.
  38. ^ Afrizal A, Jennings SAV, Hitch TCA, Riedel T, Basic M, Panyot A, Treichel N, Hager FT, Wong EO, Wolter B, et al. Enhanced cultured diversity of the mouse gut microbiota enables custom-made synthetic communities. Cell Host Microbe 2022; 30:1630-1645.
  39. ^ Lomans BP, Leijdekkers P, Wesselink JJ, Bakkes P, Pol A, van der Drift C, den Camp HJ. Obligate sulfide-dependent degradation of methoxylated aromatic compounds and formation of methanethiol and dimethyl sulfide by a freshwater sediment isolate, Parasporobacterium paucivorans gen. nov., sp. nov. Appl Environ Microbiol 2001; 67:4017-4023.
  40. ^ Wylensek D, Hitch TCA, Riedel T, Afrizal A, Kumar N, Wortmann E, Liu T, Devendran S, Lesker TR, Hernandez SB, et al. A collection of bacterial isolates from the pig intestine reveals functional and taxonomic diversity. Nat Commun 2020; 11:6389.
  41. ^ Cotta MA, Whitehead TR, Falsen E, Moore E, Lawson PA. Robinsoniella peoriensis gen. nov., sp. nov., isolated from a swine-manure storage pit and a human clinical source. Int J Syst Evol Microbiol 2009; 59:150-155.
  42. ^ Deshmukh UB, Oren A. Proposal of Shuttleworthella gen. nov. and Nostocoides gen. nov. as replacement names for the illegitimate prokaryotic generic names Shuttleworthia and Tetrasphaera, respectively. Int J Syst Evol Microbiol 2024; 74:6318.
  43. ^ Zenner C, Hitch TCA, Riedel T, Wortmann E, Tiede S, Buhl EM, Abt B, Neuhaus K, Velge P, Overmann J, et al. Early-Life Immune System Maturation in Chickens Using a Synthetic Community of Cultured Gut Bacteria. mSystems 2021; 6:0.
  44. ^ Deshmukh UB, Oren A. Proposal of Shuttleworthella gen. nov. and Nostocoides gen. nov. as replacement names for the illegitimate prokaryotic generic names Shuttleworthia and Tetrasphaera, respectively. Int J Syst Evol Microbiol 2024; 74:6318.
  45. ^ Mechichi T, Labat M, Garcia JL, Thomas P, Patel BK. Sporobacterium olearium gen. nov., sp. nov., a new methanethiol-producing bacterium that degrades aromatic compounds, isolated from an olive mill wastewater treatment digester. Int J Syst Bacteriol 1999; 49:1741-1748.
  46. ^ Sizova MV, Muller P, Panikov N, Mandalakis M, Hohmann T, Hazen A, Fowle W, Prozorov T, Bazylinski DA, Epstein SS. Stomatobaculum longum gen. nov., sp. nov., an obligately anaerobic bacterium from the human oral cavity. Int J Syst Evol Microbiol 2013; 63:1450-1456.
  47. ^ Wylensek D, Hitch TCA, Riedel T, Afrizal A, Kumar N, Wortmann E, Liu T, Devendran S, Lesker TR, Hernandez SB, et al. A collection of bacterial isolates from the pig intestine reveals functional and taxonomic diversity. Nat Commun 2020; 11:6389.
  48. ^ Wylensek D, Hitch TCA, Riedel T, Afrizal A, Kumar N, Wortmann E, Liu T, Devendran S, Lesker TR, Hernandez SB, et al. A collection of bacterial isolates from the pig intestine reveals functional and taxonomic diversity. Nat Commun 2020; 11:6389.

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