{{Short description|Family of bacteria}} {{Distinguish|enteric bacteria}} {{more citations needed|date=March 2009}} {{Automatic taxobox | image = Citrobacter freundii.jpg | image_caption = ''Citrobacter freundii'', one member of the family | taxon = Enterobacteriaceae | authority = Rahn, 1937 | subdivision_ranks = Genera | subdivision_ref = <ref>{{cite web|url=http://www.bacterio.net/-classifgenerafamilies.html#Enterobacteriaceae |access-date=26 June 2016 |title=List of genera included in families - '''Enterobacteriaceae''' |publisher=List of Prokaryotic Names with Standing in Nomenclature}}</ref> | subdivision = See text }}

<!--'''Enterobacteriaceae''' is a singular collective noun in English, but it is not English. In original Latin, it's a plural noun.--> '''Enterobacteriaceae''' is a large family of Gram-negative bacteria. It includes over 30 genera and more than 100 species. Its classification above the level of family is still a subject of debate, but one classification places it in the order Enterobacterales of the class Gammaproteobacteria in the phylum Pseudomonadota.<ref name=IIB>{{cite book |series=Bergey's Manual of Systematic Bacteriology|volume=2B|title=The Gammaproteobacteria|editor=George M. Garrity |author=Don J. Brenner |author2=Noel R. Krieg |author3=James T. Staley |publisher=Springer|location= New York |edition=2nd|isbn=978-0-387-24144-9 |pages=1108 |url=https://www.springer.com/life+sciences/book/978-0-387-24144-9 |date=July 26, 2005| orig-year =1984 (Williams & Wilkins)|id=British Library no. GBA561951}}</ref><ref>Zipcodezoo site [http://zipcodezoo.com/Key/Bacteria/Enterobacteriales_Order.asp Enterobacteriales ] {{webarchive|url=https://web.archive.org/web/20140427071000/http://zipcodezoo.com/Key/Bacteria/Enterobacteriales_Order.asp |date=2014-04-27 }} accessed 9 Mar 2013</ref><ref>NCBI [https://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi?mode=Undef&id=91347 Enterobacteriales ] accessed 9 Mar 2013</ref><ref>Taxonomicon [http://taxonomicon.taxonomy.nl/TaxonTree.aspx?id=111543 Enterobacteriales ] accessed 9 Mar 2013</ref> In 2016, the description and members of this family were emended based on comparative genomic analyses by Adeolu et al.<ref name="Adeolu201622">{{cite journal|last1=Adeolu|first1=M|last2=Alnajar|first2=S|last3=Naushad|first3=S|last4=S Gupta|first4=R|date=December 2016|title=Genome-based phylogeny and taxonomy of the 'Enterobacteriales': proposal for Enterobacterales ord. nov. divided into the families Enterobacteriaceae, Erwiniaceae fam. nov., Pectobacteriaceae fam. nov., Yersiniaceae fam. nov., Hafniaceae fam. nov., Morganellaceae fam. nov., and Budviciaceae fam. nov.|journal=International Journal of Systematic and Evolutionary Microbiology|volume=66|issue=12|pages=5575–5599|doi=10.1099/ijsem.0.001485|pmid=27620848|doi-access=free}}</ref>

Enterobacteriaceae includes, along with many harmless symbionts, many of the more familiar pathogens, such as ''Salmonella'', ''Escherichia coli'', ''Klebsiella'', and ''Shigella''. Other disease-causing bacteria in this family include ''Enterobacter'' and ''Citrobacter''. Members of the Enterobacteriaceae can be trivially referred to as enterobacteria or "enteric bacteria",<ref>{{Cite web |last=Corkery |first=Liz |date=2020-02-12 |title=Enteric Bacteria {{!}} Safety Services |url=https://safetyservices.ucdavis.edu/units/occupational-health/surveillance-system/enteric-bacteria |access-date=2023-11-07 |website=safetyservices.ucdavis.edu |language=en}}</ref> as several members live in the intestines of animals. In fact, the etymology of the family is enterobacterium with the suffix to designate a family (aceae)—not after the genus ''Enterobacter'' (which would be "Enterobacteraceae")—and the type genus is ''Escherichia''.

==Morphology== Members of the Enterobacteriaceae are bacilli (rod-shaped), and are typically 1–5&nbsp;μm in length. They typically appear as medium to large-sized grey colonies on blood agar, although some can express pigments.

Most have many flagella used to move about, but a few genera are nonmotile. Most members of Enterobacteriaceae have peritrichous, type I fimbriae involved in the adhesion of the bacterial cells to their hosts.<ref name="Edwards">{{cite book | last1=Edwards | first1=P.R. | last2=Ewing | first2=W.H. | title=Identification of Enterobacteriaceae | publisher=Burgess Publishing Company | year=1972 | isbn=978-0-8087-0516-1 | url=https://books.google.com/books?id=IgRrAAAAMAAJ}}</ref>

They are not spore-forming.<ref>{{cite journal |last1=Cordier |first1=J-L. |title=17 - Enterobacteriaceae |journal=Emerging Foodborne Pathogens |series=Woodhead Publishing Series in Food Science, Technology and Nutrition |date=1 January 2006 |pages=450–475 |doi=10.1533/9781845691394.2.450 |url=https://doi.org/10.1533/9781845691394.2.450 |publisher=Woodhead Publishing|isbn=978-1-85573-963-5 |url-access=subscription }}</ref>

==Metabolism== Like other Pseudomonadota, Enterobacteriaceae have gram-negative stains,<ref name="urlDorlands Medical Dictionary:''Enterobacteriaceae''">{{cite web |url=https://www.mercksource.com/pp/us/cns/cns_hl_dorlands_split.jsp?pg=/ppdocs/us/common/dorlands/dorland/three/000035660.htm |title=Dorlands Medical Dictionary:Enterobacteriaceae |archive-url=https://web.archive.org/web/20090828042708/http://www.mercksource.com/pp/us/cns/cns_hl_dorlands_split.jsp?pg=%2Fppdocs%2Fus%2Fcommon%2Fdorlands%2Fdorland%2Fthree%2F000035660.htm |archive-date=2009-08-28 |url-status=dead }}</ref> and they are facultative anaerobes, some fermenting sugars to produce lactic acid and various other end products. Most also reduce nitrate to nitrite, although exceptions exist. Unlike most similar bacteria, Enterobacteriaceae generally lack cytochrome c oxidase, there are exceptions.

Catalase reactions vary among Enterobacteriaceae.{{Citation needed|date=May 2026}}

==Ecology== Many members of this family are normal members of the gut microbiota in humans and other animals,<ref name="Ferreira">{{cite journal | last1=Ferreira da Silva | first1=Miguel | last2=Vaz-Moreira | first2=Ivone | last3=Gonzalez-Pajuelo | first3=Maria | last4=Nunes | first4=Olga C. | last5=Manaia | first5=Célia M. | title=Antimicrobial resistance patterns in Enterobacteriaceae isolated from an urban wastewater treatment plant | journal=FEMS Microbiology Ecology | publisher=Oxford University Press (OUP) | volume=60 | issue=1 | year=2007 | issn=0168-6496 | doi=10.1111/j.1574-6941.2006.00268.x | pages=166–176| pmid=17250754 | doi-access=free | bibcode=2007FEMME..60..166F }}</ref> while others are found in water or soil, or are parasites on a variety of different animals and plants.<ref name="Kleeberger">{{cite journal |last1=Kleeberger |first1=A. |last2=Braatz |first2=R. |last3=Busse |first3=M. |title=Zur Taxonomie und Okologie der Enterobakterien in Milch |trans-title=Taxonomy and ecology of Enterobacteriaceae in milk. |journal=Milchwissenschaft |volume=35 |issue=8 |date=1980 |pages=457–460 |language=de |url=https://www.cabdirect.org/cabdirect/abstract/19800462729}}</ref><ref name="Wang">{{cite journal | last1=Wang | first1=Zhiying | last2=Hu | first2=Huifeng | last3=Zhu | first3=Tongbo | last4=Zheng | first4=Jinshui | last5=Gänzle | first5=Michael G. | last6=Simpson | first6=David J. | editor-last=Rodríguez-Verdugo | editor-first=Alejandra | title=Ecology and Function of the Transmissible Locus of Stress Tolerance in Escherichia coli and Plant-Associated Enterobacteriaceae | journal=mSystems | publisher=American Society for Microbiology | volume=6 | issue=4 | date=31 August 2021 | pages=e0037821 | issn=2379-5077 | doi=10.1128/msystems.00378-21 | doi-access=free| pmid=34402641 | pmc=8407380 }}</ref>

==Model organisms and medical relevance== ''Escherichia coli'' is one of the most important model organisms, and its genetics and biochemistry have been closely studied.<ref>{{cite journal |last1=Blount |first1=Zachary D |title=The unexhausted potential of E. coli |journal=eLife |date=25 March 2015 |volume=4 |article-number=e05826 |doi=10.7554/eLife.05826 |doi-access=free |pmid=25807083 |pmc=4373459 }}</ref>

Some enterobacteria are important pathogens, e.g. ''Salmonella'', or ''Shigella'' e.g. because they produce endotoxins.<ref>{{cite journal |last1=Singh |first1=Jyoti |last2=Sharma |first2=Shivesh |last3=Nara |first3=Seema |title=Evaluation of gold nanoparticle based lateral flow assays for diagnosis of enterobacteriaceae members in food and water |journal=Food Chemistry |date=1 March 2015 |volume=170 |pages=470–483 |doi=10.1016/j.foodchem.2014.08.092 |pmid=25306373 }}</ref> Endotoxins reside in the cell wall and are released when the cell dies and the cell wall disintegrates. Some members of the Enterobacteriaceae produce endotoxins that, when released into the bloodstream following cell lysis, cause a systemic inflammatory and vasodilatory response. The most severe form of this is known as endotoxic shock, which can be rapidly fatal.

==Historical systematics and taxonomy== Enterobacteriaceae was originally the sole family under the order Enterobacteriales. The family contained a large array of biochemically distinct species with different ecological niches, which made biochemical descriptions difficult.<ref>{{Cite book|date=2005|editor-last=Brenner|editor-first=Don J.|editor2-last=Krieg|editor2-first=Noel R.|editor3-last=Staley|editor3-first=James T.|editor4-last=Garrity|editor4-first=George M.|editor5-last=Boone|editor5-first=David R.|editor6-last=De Vos|editor6-first=Paul|editor7-last=Goodfellow|editor7-first=Michael|editor8-last=Rainey|editor8-first=Fred A.|editor9-last=Schleifer|editor9-first=Karl-Heinz|title=Bergey's Manual® of Systematic Bacteriology|url=http://dx.doi.org/10.1007/0-387-28022-7|doi=10.1007/0-387-28022-7|isbn=978-0-387-24144-9}}</ref><ref>{{Citation|last1=Octavia|first1=Sophie|title=The Family Enterobacteriaceae|date=2014|url=http://dx.doi.org/10.1007/978-3-642-38922-1_167|work=The Prokaryotes|pages=225–286|place=Berlin, Heidelberg|publisher=Springer Berlin Heidelberg|isbn=978-3-642-38921-4|access-date=2021-06-02|last2=Lan|first2=Ruiting|doi=10.1007/978-3-642-38922-1_167|url-access=subscription}}</ref> The original classification of species to this family and order was largely based on 16S rRNA genome sequence analyses, which is known to have low discriminatory power and the results of which changes depends on the algorithm and organism information used. Despite this, the analyses still exhibited polyphyletic branching, indicating the presence of distinct subgroups within the family.<ref>{{Citation|last1=Francino|first1=M. Pilar|title=Phylogenetic Relationships of Bacteria with Special Reference to Endosymbionts and Enteric Species|date=2006|url=http://dx.doi.org/10.1007/0-387-30746-x_2|work=The Prokaryotes|pages=41–59|place=New York, NY|publisher=Springer New York|isbn=978-0-387-25496-8|access-date=2021-06-02|last2=Santos|first2=Scott R.|last3=Ochman|first3=Howard|doi=10.1007/0-387-30746-x_2|url-access=subscription}}</ref>

In 2016, the order Enterobacteriales was renamed to Enterobacterales, and divided into 7 new families, including the emended Enterobacteriaceae family.<ref name="Adeolu201622"/> This emendation restricted the family to include only those genera directly related to the type genus, which included most of the enteric species under the order. This classification was proposed based on the construction of several robust phylogenetic trees using conserved genome sequences, 16S rRNA sequences and multilocus sequence analyses. Molecular markers, specifically conserved signature indels, specific to this family were identified as evidence supporting the division independent of phylogenetic trees.

In 2017, a subsequent study using comparative phylogenomic analyses identified the presence of 6 subfamily level clades within the family Enterobacteriaceae, namely the "Escherichia clade", "Klebsiella clade", "Enterobacter clade", "Kosakonia clade", "Cronobacter clade", "Cedecea clade" and an "Enterobacteriaceae incertae sedis clade" containing species whose taxonomic placement within the family is unclear.<ref>{{Cite journal|last1=Alnajar|first1=Seema|last2=Gupta|first2=Radhey S.|date=October 2017|title=Phylogenomics and comparative genomic studies delineate six main clades within the family Enterobacteriaceae and support the reclassification of several polyphyletic members of the family|journal=Infection, Genetics and Evolution|volume=54|pages=108–127|doi=10.1016/j.meegid.2017.06.024|issn=1567-7257|pmid=28658607|bibcode=2017InfGE..54..108A }}</ref> However, this division was not officially proposed as the subfamily rank is generally not used.

==Molecular signatures== Analyses of genome sequences from Enterobacteriaceae species identified 21 conserved signature indels (CSIs) that are uniquely present in this family in the proteins NADH:ubiquinone oxidoreductase (subunit M), twitching motility protein PilT, 2,3-dihydroxybenzoate-AMP ligase, ATP/GTP-binding protein, multifunctional fatty acid oxidation complex (subunit alpha), S-formylglutathione hydrolase, aspartate-semialdehyde dehydrogenase, epimerase, membrane protein, formate dehydrogenylase (subunit 7), glutathione S-transferase, major facilitator superfamily transporter, phosphoglucosamine mutase, glycosyl hydrolase 1 family protein, 23S rrna [uracil(1939)-C(5)]-methyltransferase, co-chaperone HscB, N-acetylmuramoyl-L-alanine amidase, sulfate ABC transporter ATP-binding protein CysA, and LPS assembly protein LptD.<ref name="Adeolu201622" /> These CSIs provide a molecular means of distinguishing Enterobacteriaceae from other families within the order Enterobacterales and other bacteria.

==Genera==

===Validly published genera=== The following genera have been validly published, thus they have "Standing in Nomenclature". The year the genus was proposed is listed in parentheses after the genus name. {{div col|colwidth=200px}} * ''Apirhabdus'' (2024) * ''Buttiauxella'' (1982) <!-- Calymmatobacterium was reclassified as Klebsiella. --> * ''Cedecea'' (1981) * ''Citrobacter'' (1932) * ''Cronobacter'' (2008) * ''Dryocola'' (2023) * ''Enterobacillus'' (2015) * ''Enterobacter'' (1960) * ''Escherichia'' (1919) * ''Franconibacter'' (2014) * ''Gibbsiella'' (2011) * ''Intestinirhabdus'' (2020) * ''Izhakiella'' (2016) * ''Klebsiella'' (1885) * ''Kluyvera'' (1981) * ''Kosakonia'' (2013) * ''Leclercia'' (1987) * ''Lelliottia'' (2013) <!-- Levinea was reclassified as Citrobacter. --> * ''Limnobaculum'' (2018) * ''Mangrovibacter'' (2010) * ''Metakosakonia'' (2017) * ''Phytobacter'' (2017) * ''Pluralibacter'' (2013) * ''Pseudescherichia'' (2017) * ''Pseudocitrobacter'' (2014) * ''Rosenbergiella'' (2013) * ''Saccharobacter'' (1990) * ''Salmonella'' (1900) * ''Scandinavium'' (2020) * ''Shigella'' (1919) * ''Shimwellia'' (2010) * ''Siccibacter'' (2014) * ''Silvania'' (2023) * ''Tenebrionibacter'' (2022) * ''Tenebrionicola'' (2022) * ''Trabulsiella'' (1992) * ''Yokenella'' (1985) {{div col end}}

===''Candidatus'' genera=== {{div col|colwidth=200px}} * "''Candidatus'' Annandia" * "''Candidatus'' Arocatia" * "''Candidatus'' Aschnera" * "''Candidatus'' Benitsuchiphilus" * "''Candidatus'' Blochmannia" * "''Candidatus'' Curculioniphilus" * "''Candidatus'' Cuticobacterium" * "''Candidatus'' Doolittlea" * "''Candidatus'' Gillettellia" * "''Candidatus'' Gullanella" * "''Candidatus'' Hamiltonella" * "''Candidatus'' Hartigia" * "''Candidatus'' Hoaglandella" * "''Candidatus'' Ischnodemia" * "''Candidatus'' Ishikawaella" * "''Candidatus'' Kleidoceria" * "''Candidatus'' Kotejella" * "''Candidatus'' Macropleicola" * "''Candidatus'' Mikella" * "''Candidatus'' Moranella" * "''Candidatus'' Phlomobacter" * "''Candidatus'' Profftia" * "''Candidatus'' Purcelliella" * "''Candidatus'' Regiella" * "''Candidatus'' Riesia" * "''Candidatus'' Rohrkolberia" * "''Candidatus'' Rosenkranzia" * "''Candidatus'' Schneideria" * "''Candidatus'' Stammera" * "''Candidatus'' Stammerula" * "''Candidatus'' Tachikawaea" * "''Candidatus'' Westeberhardia" {{div col end}}

===Proposed genera=== The following genera have been effectively, but not validly, published, thus they do not have "Standing in Nomenclature". The year the genus was proposed is listed in parentheses after the genus name. {{div col|colwidth=200px}} * ''Aquamonas'' (2009) * ''Atlantibacter'' (2016) * ''Superficieibacter'' (2018){{div col end}}

==Identification== To identify different genera of Enterobacteriaceae, a microbiologist may run a series of tests in the lab. These include:<ref>MacFaddin, Jean F. ''Biochemical Tests for Identification of Medical Bacteria.'' Williams & Wilkins, 1980, p 441.</ref> * Phenol red * Tryptone broth * Phenylalanine agar for detection of production of deaminase, which converts phenylalanine to phenylpyruvic acid * Methyl red or Voges-Proskauer tests depend on the digestion of glucose. The methyl red tests for acid endproducts. The Voges Proskauer tests for the production of acetylmethylcarbinol. * Catalase test on nutrient agar tests for the production of enzyme catalase, which splits hydrogen peroxide and releases oxygen gas. * Oxidase test on nutrient agar tests for the production of the enzyme oxidase, which reacts with an aromatic amine to produce a purple color. * Nutrient gelatin tests to detect activity of the enzyme gelatinase.

In a clinical setting, three species make up 80 to 95% of all isolates identified. These are ''Escherichia coli'', ''Klebsiella pneumoniae'', and ''Proteus mirabilis''. However, ''Proteus mirabilis'' is now considered a part of the Morganellaceae, a sister clade within the Enterobacterales.

==Antibiotic resistance== {{Main|Carbapenem resistant enterobacteriaceae}} Several Enterobacteriaceae strains have been isolated which are resistant to antibiotics including carbapenems, which are often claimed as "the last line of antibiotic defense" against resistant organisms. For instance, some ''Klebsiella pneumoniae'' strains are carbapenem resistant.<ref>{{cite web | title=Klebsiella pneumoniae in Healthcare Settings - HAI | website=CDC | date=17 May 2019 | url=https://www.cdc.gov/HAI/organisms/klebsiella/klebsiella.html | access-date=6 April 2022|quote=Increasingly, Klebsiella bacteria have developed antimicrobial resistance, most recently to the class of antibiotics known as carbapenems.}}</ref> Various carbapenemases genes (blaOXA-48, OXA-23, blaKPC and blaNDM-1, blaVIM and blaIMP) have been identified in carbapenem resistant Enterobacteriaceae including ''Escherichia coli'' and ''Klebsiella pneumoniae''.<ref>{{Cite journal|last1=Ghaith|first1=Doaa M.|last2=Mohamed|first2=Zeinat K.|last3=Farahat|first3=Mohamed G.|last4=Aboulkasem Shahin|first4=Walaa|last5=Mohamed|first5=Hadeel O.|date=March 2019|title=Colonization of intestinal microbiota with carbapenemase-producing Enterobacteriaceae in paediatric intensive care units in Cairo, Egypt|url=https://linkinghub.elsevier.com/retrieve/pii/S168719791930005X|journal=Arab Journal of Gastroenterology|language=en|volume=20|issue=1|pages=19–22|doi=10.1016/j.ajg.2019.01.002|pmid=30733176|s2cid=73444389}}</ref><ref>{{Cite journal |last=Smith |first=Clyde A. |last2=Antunes |first2=Nuno Tiago |last3=Stewart |first3=Nichole K. |last4=Toth |first4=Marta |last5=Kumarasiri |first5=Malika |last6=Chang |first6=Mayland |last7=Mobashery |first7=Shahriar |last8=Vakulenko |first8=Sergei B. |date=2013-09-19 |title=Structural basis for carbapenemase activity of the OXA-23 β-lactamase from Acinetobacter baumannii |url=https://pmc.ncbi.nlm.nih.gov/articles/PMC3888872/ |journal=Chemistry & Biology |volume=20 |issue=9 |pages=1107–1115 |doi=10.1016/j.chembiol.2013.07.015 |issn=1879-1301 |pmc=3888872 |pmid=24012371}}</ref>

==References== {{Reflist}}

==External links== * {{Commons category-inline|Enterobacteriaceae}} * [https://web.archive.org/web/20110727165737/http://patricbrc.org/portal/portal/patric/Taxon?cType=taxon&cId=543 Enterobacteriaceae] genomes and related information at [http://patricbrc.org/ PATRIC], a Bioinformatics Resource Center funded by [https://www.niaid.nih.gov/ NIAID] * Evaluation of new computer-enhanced identification program for microorganisms: adaptation of BioBASE for identification of members of the family Enterobacteriaceae [http://jcm.asm.org/cgi/content/abstract/34/1/179] * Brown, A.E. (2009). Benson's microbiological applications: laboratory manual in general microbiology. New York: McGraw- Hill.

{{Taxonbar|from=Q380136}} {{Authority control}}

Category:Enterobacteriaceae Category:Bacteria families Category:Gram-negative bacteria