-monas
Encyclopedia
The suffix -monas is used in microbiology for many genera and is intended to mean "unicellular organism".
, -bacillus
, -coccus
or -spirillum
. The genera with the suffix monas are not a monophyletic group and the suffix is chosen over -bacter, often simply out of stylistic preferences to match with Greek words.
The first genus to be given the suffix -monas was the Pseudomonas
, a genus
of gammaproteobacteria
. The generic epithet Pseudomonas was coined by Walter Migula
in 1894, who did not give an etymology.
Since the 7th edition of Bergey's manual (=top authority in bacterial nomeclature), other authors have given the etymology to be: Greek
pseudes (ψευδες) (false) and monas (μονάς / μονάδα a single unit), which can mean "false unit". However, "false unit" conceptually does not make much sense, namely, it does not mean "an organism which may falsely appear as a single unit but it is not" as it is not found in multicellular chains nor was it ever described as such. One speculation is that the name was chosen simply out of aesthetics,while the most plausible theory states that Migula intended it as false Monas, a nanoflagellate protist (Chrysophyceae: Ochromonadales: Ochromonadaceae: Chrysomonadida: Ochromonadidae). Subsequently, the term "monas" was used in the early history of microbiology to denote single-celled organisms.
or Greek declension), here μονάς / μονάδα.
In English to make a vernacular name for members of a genus, i.e. trivialising the scientific name, the scientific name is taken and written with sentence case and in roman type (i.e. "standard") as opposed to uppercase italic, the plurals are generally constructed by adding an "s", regardless of Greco-Roman grammar. In the case of genera ending in monas the ending is changed to monad with plural -monads. Example: a member of the Pseudomonas genus is a pseudomonad, while two are pseudomonads. The use of the stem for non-nominative cases is seen more often in botany, where trivialisation is more common, e.g. a bromeliad is a member of the genus Bromelia
.
Meaning
The suffix -monas is used in microbiology for many genera in a similar way to -bacter-bacter
-Meaning:Bacter is a Neolatin term coined from bacterium, which in turn derives from the Greek βακτήριον, meaning small staff...
, -bacillus
Bacillus (shape)
The word bacillus may be used to describe any rod-shaped bacterium, and such bacilli are found in many different taxonomic groups of bacteria. However, the name Bacillus, capitalized and italicized, refers to a specific genus of bacteria...
, -coccus
Coccus
Coccus can be used to describe any bacterium that has a spherical shape. It is one of the three distinct types of bacteria shapes, the other two being bacillus and spirillum cells...
or -spirillum
Spirillum
Spirillum in microbiology refers to a bacterium with a cell body that twists like a spiral. It is the third distinct bacterial cell shape type besides coccus and bacillus cells.-Taxonomic:...
. The genera with the suffix monas are not a monophyletic group and the suffix is chosen over -bacter, often simply out of stylistic preferences to match with Greek words.
The first genus to be given the suffix -monas was the Pseudomonas
Pseudomonas
Pseudomonas is a genus of gammaproteobacteria, belonging to the family Pseudomonadaceae containing 191 validly described species.Recently, 16S rRNA sequence analysis has redefined the taxonomy of many bacterial species. As a result, the genus Pseudomonas includes strains formerly classified in the...
, a genus
Genus
In biology, a genus is a low-level taxonomic rank used in the biological classification of living and fossil organisms, which is an example of definition by genus and differentia...
of gammaproteobacteria
Gammaproteobacteria
Gammaproteobacteria is a class of several medically, ecologically and scientifically important groups of bacteria, such as the Enterobacteriaceae , Vibrionaceae and Pseudomonadaceae. An exceeding number of important pathogens belongs to this class, e.g...
. The generic epithet Pseudomonas was coined by Walter Migula
Walter Migula
Walter Emil Friedrich August Migula was a German botanist, who published many articles on the subjects of cryptogamic botany, bacteriology, and plant physiology...
in 1894, who did not give an etymology.
Since the 7th edition of Bergey's manual (=top authority in bacterial nomeclature), other authors have given the etymology to be: Greek
Ancient Greek
Ancient Greek is the stage of the Greek language in the periods spanning the times c. 9th–6th centuries BC, , c. 5th–4th centuries BC , and the c. 3rd century BC – 6th century AD of ancient Greece and the ancient world; being predated in the 2nd millennium BC by Mycenaean Greek...
pseudes (ψευδες) (false) and monas (μονάς / μονάδα a single unit), which can mean "false unit". However, "false unit" conceptually does not make much sense, namely, it does not mean "an organism which may falsely appear as a single unit but it is not" as it is not found in multicellular chains nor was it ever described as such. One speculation is that the name was chosen simply out of aesthetics,while the most plausible theory states that Migula intended it as false Monas, a nanoflagellate protist (Chrysophyceae: Ochromonadales: Ochromonadaceae: Chrysomonadida: Ochromonadidae). Subsequently, the term "monas" was used in the early history of microbiology to denote single-celled organisms.
Grammar
When suffices are added to a name of a genus ending in -monas to make higher ranks, the stem becomes -monad-, in fact it is quite common in Greek and in Latin that the stem differs between the singular nominative case and the rest (c.f. Latin declensionLatin declension
Latin is an inflected language, and as such has nouns, pronouns, and adjectives that must be declined in order to serve a grammatical function. A set of declined forms of the same word pattern is called a declension. There are five declensions, which are numbered and grouped by ending and...
or Greek declension), here μονάς / μονάδα.
In English to make a vernacular name for members of a genus, i.e. trivialising the scientific name, the scientific name is taken and written with sentence case and in roman type (i.e. "standard") as opposed to uppercase italic, the plurals are generally constructed by adding an "s", regardless of Greco-Roman grammar. In the case of genera ending in monas the ending is changed to monad with plural -monads. Example: a member of the Pseudomonas genus is a pseudomonad, while two are pseudomonads. The use of the stem for non-nominative cases is seen more often in botany, where trivialisation is more common, e.g. a bromeliad is a member of the genus Bromelia
Bromelia
Bromelia is a genus of the botanical family Bromeliaceae, subfamily Bromelioideae. Bromelia species are characterized by flowers with a deeply cleft calyx. The genus is named after the Swedish medical doctor and botanist Olaf Bromelius .-Species:* Bromelia agavifolia Brongniart ex Houllet*...
.
Archeal genera
| Genus | Phylum | Order | Class | Family |
|---|---|---|---|---|
| Natronomonas | Euryarchaeota | Halobacteria | Halobacteriales | Halobacteriaceae |
| Thermogymnomonas | Euryarchaeota | Thermoplasmata | Thermoplasmatales |
Bacterial genera
| Genus | Phylum | Order | Class | Family |
|---|---|---|---|---|
| Acidomonas | Proteobacteria | Alphaproteobacteria | Rhodospirillales | Acetobacteraceae |
| Aeromonas | Proteobacteria | Gammaproteobacteria | Aeromonadales | Aeromonadaceae |
| Agromonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Bradyrhizobiaceae |
| Aidingimonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Halomonadaceae |
| Albimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Alkalimonas | Proteobacteria | Gammaproteobacteria | ||
| Allomonas | Proteobacteria | Gammaproteobacteria | Vibrionales | Vibrionaceae |
| Alteromonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Alteromonadaceae |
| Aminomonas | Synergistetes | Synergistia | Synergistales | Synergistaceae |
| Aquimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Aquisalimonas | Proteobacteria | Gammaproteobacteria | Chromatiales | Ectothiorhodospiraceae |
| Arenimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Arhodomonas | Proteobacteria | Gammaproteobacteria | Chromatiales | Ectothiorhodospiraceae |
| Aspromonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Aurantimonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Aurantimonadaceae |
| Azohydromonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Alcaligenaceae |
| Azomonas | Proteobacteria | Gammaproteobacteria | Pseudomonadales | Pseudomonadaceae |
| Balneimonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Bradyrhizobiaceae |
| Blastomonas | Proteobacteria | Alphaproteobacteria | Sphingomonadales | Sphingomonadaceae |
| Brachymonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Brevundimonas | Proteobacteria | Alphaproteobacteria | Caulobacterales | Caulobacteraceae |
| Butyricimonas | Bacteroidetes | Bacteroidia | Bacteroidales | Porphyromonadaceae |
| Caenimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Caldimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Camelimonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Beijerinckiaceae |
| Carnimonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Halomonadaceae |
| Celerinatantimonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Celerinatantimonadaceae |
| Cellulomonas | Actinobacteria | Actinobacteria | Actinomycetales | Cellulomonadaceae |
| Chitinimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Burkholderiaceae |
| Chryseomonas | Proteobacteria | Gammaproteobacteria | Pseudomonadales | Pseudomonadaceae |
| Citreimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Cocleimonas | Proteobacteria | Gammaproteobacteria | ||
| Collimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Oxalobacteraceae |
| Comamonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Conglomeromonas | Proteobacteria | Alphaproteobacteria | Rhodospirillales | Rhodospirillaceae |
| Dechloromonas | Proteobacteria | Betaproteobacteria | Rhodocyclales | Rhodocyclaceae |
| Dehalogenimonas | Chloroflexi | Dehalococcoidetes | ||
| Desulfomonas | Proteobacteria | Deltaproteobacteria | Desulfovibrionales | Desulfovibrionaceae |
| Desulfosalsimonas | Proteobacteria | Deltaproteobacteria | Desulfobacterales | Desulfobacteraceae |
| Desulfuromonas | Proteobacteria | Deltaproteobacteria | Desulfuromonadales | Desulfuromonadaceae |
| Dysgonomonas | Bacteroidetes | Bacteroidia | Bacteroidales | Porphyromonadaceae |
| Endozoicomonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Hahellaceae |
| Epilithonimonas | Bacteroidetes | Flavobacteria | Flavobacteriales | Flavobacteriaceae |
| Erythromonas | Proteobacteria | Alphaproteobacteria | Sphingomonadales | Sphingomonadaceae |
| Ferrimonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Ferrimonadaceae |
| Filimonas | Bacteroidetes | Sphingobacteria | Sphingobacteriales | Chitinophagaceae |
| Flagellimonas | Bacteroidetes | Flavobacteria | Flavobacteriales | Flavobacteriaceae |
| Flavimonas | Proteobacteria | Gammaproteobacteria | Pseudomonadales | Pseudomonadaceae |
| Fulvimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Gallaecimonas | Proteobacteria | Gammaproteobacteria | ||
| Gemmatimonas | Gemmatimonadetes | Gemmatimonadetes | Gemmatimonadales | Gemmatimonadaceae |
| Gracilimonas | Bacteroidetes | Sphingobacteria | Sphingobacteriales | Chitinophagaceae |
| Halomonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Halomonadaceae |
| Herminiimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Oxalobacteraceae |
| Hydrogenimonas | Proteobacteria | Epsilonproteobacteria | Campylobacterales | Hydrogenimonaceae |
| Hyphomonas | Proteobacteria | Alphaproteobacteria | Caulobacterales | Hyphomonadaceae |
| Kistimonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Hahellaceae |
| Kordiimonas | Proteobacteria | Alphaproteobacteria | Kordiimonadales | Kordiimonadaceae |
| Lebetimonas | Proteobacteria | Epsilonproteobacteria | Nautiliales | Nautiliaceae |
| Luteimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Lutimonas | Bacteroidetes | Flavobacteria | Flavobacteriales | Flavobacteriaceae |
| Macromonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Malonomonas | Proteobacteria | Deltaproteobacteria | Desulfuromonadales | Desulfuromonadaceae |
| Marinomonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Oceanospirillaceae |
| Maritimimonas | Bacteroidetes | Flavobacteria | Flavobacteriales | Flavobacteriaceae |
| Marixanthomonas | Bacteroidetes | Flavobacteria | Flavobacteriales | Flavobacteriaceae |
| Megamonas | Firmicutes | Negativicutes | Selenomonadales | Veillonellaceae |
| Methylohalomonas | Proteobacteria | Gammaproteobacteria | ||
| Methylomonas | Proteobacteria | Gammaproteobacteria | Methylococcales | Methylococcaceae |
| Miniimonas | Actinobacteria | Actinobacteria | Actinomycetales | Beutenbergiaceae |
| Neptunomonas | Proteobacteria | Gammaproteobacteria | Oceanospirillales | Oceanospirillaceae |
| Nitrosomonas | Proteobacteria | Betaproteobacteria | Nitrosomonadales | Nitrosomonadaceae |
| Oceanimonas | Proteobacteria | Gammaproteobacteria | Aeromonadales | Aeromonadaceae |
| Paraferrimonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Ferrimonadaceae |
| Parapusillimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Alcaligenaceae |
| Parvimonas | Firmicutes | Clostridia | Clostridiales | |
| Paucimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Burkholderiaceae |
| Pelomonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Petrimonas | Bacteroidetes | Bacteroidia | Bacteroidales | Porphyromonadaceae |
| Pleomorphomonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Methylocystaceae |
| Plesiomonas | Proteobacteria | Gammaproteobacteria | Enterobacteriales | Enterobacteriaceae |
| Polaromonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Comamonadaceae |
| Porphyromonas | Bacteroidetes | Bacteroidia | Bacteroidales | Porphyromonadaceae |
| Propionicimonas | Actinobacteria | Actinobacteria | Actinomycetales | Propionibacteriaceae |
| Protomonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Methylobacteriaceae |
| Pseudoalteromonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Pseudoalteromonadaceae |
| Pseudofulvimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Pseudomonas | Proteobacteria | Gammaproteobacteria | Pseudomonadales | Pseudomonadaceae |
| Pseudoxanthomonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Psychromonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Psychromonadaceae |
| Pusillimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | Alcaligenaceae |
| Rhizomonas | Proteobacteria | Alphaproteobacteria | Sphingomonadales | Sphingomonadaceae |
| Rhodopseudomonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Bradyrhizobiaceae |
| Roseomonas | Proteobacteria | Alphaproteobacteria | Rhodospirillales | Acetobacteraceae |
| Rubrimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Rugamonas | Proteobacteria | Gammaproteobacteria | Pseudomonadales | Pseudomonadaceae |
| Salinarimonas | Proteobacteria | Alphaproteobacteria | Rhizobiales | Bradyrhizobiaceae |
| Salinimonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Alteromonadaceae |
| Sediminimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Selenomonas | Firmicutes | Negativicutes | Selenomonadales | Veillonellaceae |
| Silanimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Silvimonas | Proteobacteria | Betaproteobacteria | Neisseriales | Neisseriaceae |
| Singularimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Sinobacteraceae |
| Sinomonas | Actinobacteria | Actinobacteria | Actinomycetales | Micrococcaceae |
| Solimonas | Proteobacteria | Gammaproteobacteria | ||
| Sphingomonas | Proteobacteria | Alphaproteobacteria | Sphingomonadales | Sphingomonadaceae |
| Stenotrophomonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Succinatimonas | Proteobacteria | Gammaproteobacteria | Aeromonadales | Succinivibrionaceae |
| Succinimonas | Proteobacteria | Gammaproteobacteria | Aeromonadales | Succinivibrionaceae |
| Sulfurimonas | Proteobacteria | Epsilonproteobacteria | Campylobacterales | Helicobacteraceae |
| Syntrophomonas | Firmicutes | Clostridia | Clostridiales | Syntrophomonadaceae |
| Tepidimonas | Proteobacteria | Betaproteobacteria | Burkholderiales | |
| Terrimonas | Bacteroidetes | Sphingobacteria | Sphingobacteriales | Chitinophagaceae |
| Thalassomonas | Proteobacteria | Gammaproteobacteria | Alteromonadales | Colwelliaceae |
| Thermanaeromonas | Firmicutes | Clostridia | Thermoanaerobacterales | Thermoanaerobacteraceae |
| Thermomonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Thiohalomonas | Proteobacteria | Gammaproteobacteria | ||
| Thiomonas | Proteobacteria | Betaproteobacteria | Burkholderiales | |
| Tolumonas | Proteobacteria | Gammaproteobacteria | Aeromonadales | Aeromonadaceae |
| Tranquillimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Tropicimonas | Proteobacteria | Alphaproteobacteria | Rhodobacterales | Rhodobacteraceae |
| Wohlfahrtiimonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Xanthomonas | Proteobacteria | Gammaproteobacteria | Xanthomonadales | Xanthomonadaceae |
| Xylanimonas | Actinobacteria | Actinobacteria | Actinomycetales | Promicromonosporaceae |
| Zymomonas | Proteobacteria | Alphaproteobacteria | Sphingomonadales | Sphingomonadaceae |