List of model organisms

This is a list of

model organisms

used in scientific research.

Viruses

Phages (infecting prokaryotes):

Escherichia virus Lambda (Phage lambda)
Phi X 174, the first DNA genome ever to be sequenced (circular, 5386 base pairs in length), shortly after the RNA genome of bacteriophage MS2 (in 1976).
T4 phage

Animal viruses:

SV40
Human alphaherpesvirus (Herpes simplex virus)

Plant viruses:

Tobacco mosaic virus

Prokaryotes

Bacteria:

Escherichia coli (E. coli), common Gram-negative gut bacterium widely used in molecular genetics. Main lab strain is 'K-12'.
Bacillus subtilis, endospore forming Gram-positive bacterium. Main lab strain is '168'.
Caulobacter crescentus, bacterium that divides into two distinct cells used to study cellular differentiation.
Mycoplasma genitalium, minimal organism.
Hawaiian bobtail squid
.

Bacteroides thetaiotaomicron, polysaccharide-degrading member of the human gut microbiota, used to study functional aspects of the gut microbiota.^[1]

Synechocystis (specifically PCC 6803), photosynthetic cyanobacterium widely used in photosynthesis research.

Pseudomonas fluorescens, soil bacterium that readily diversifies into different strains in the lab.

Azotobacter vinelandii, obligate aerobe diazotroph used in nitrogen fixation research.

antibiotics.^[2]^[3]

Archaea:

Methanococcus and Methanosarcina, model methanogens, representing the two metabolic types of hydrogenotrophism and methylotrophism. Methanogenesis remains a key area of metabolic research.^[4]

Halobacterium salinarum and Haloferax volcanii, model Haloarchaea. The former has a reputation in the study of DNA repair. The latter is more suited to more traditional genetics due to a shorter generation time and more stable genome. This order is known for its easy updake of genetic tools as well as resistance to culture contamination.^[4]

Thermococcus kodakarensis, Pyrococcus abyssi, and Pyrococcus furiosus are the Thermococcales models. This order is known for its unique metabolic pathways.^[4]

Three members of
S. islandicus E322S, and S. acidocaldarius are the current Sulfolobales models. Proteins from these thermophilic bacteria are easy to crystalize, simplifying structural work.^[4]

Eukaryotes

Some of the divisions given below are paraphyletic. This is, for now, considered acceptable, considering that some groups of organisms receive more attention than others.

Protists

Stentor coeruleus, used in molecular biology (its genome has been sequenced),^[5] and is studied as a model of single-cell regeneration.

cell communication, differentiation, and programmed cell death
.

protozoan
.
Naegleria gruberi, freshwater non-pathogenic amoeboflagellate sometimes used in eukaryotic cell biology experiments.

Emiliania huxleyi, unicellular marine coccolithophore alga, extensively studied as a model phytoplankton species.

Thalassiosira pseudonana, unicellular marine diatom alga, extensively studied as a model marine diatom since its genome was published in 2004.

Fungi

Ashbya gossypii
, cotton pathogen, subject of genetics studies (polarity, cell cycle).

mold
subject of genetics studies.

Coprinus cinereus, mushroom (genetic studies of mushroom development, genetic studies of meiosis).^[6]

Cryptococcus neoformans, opportunistic human pathogen

mold (genetic studies of meiosis, metabolic regulation, and circadian rhythm).^[7]

Pichia pastoris
(Komagataella phaffii), widely used in biochemical research and industry as an expression system for protein production, as well as genetic study

Rhizophagus irregularis, used for studying arbuscular mycorrhizal symbiosis.^[8]^[9]

Saccharomyces cerevisiae (baker's yeast or budding yeast), used in brewing and baking.

Schizophyllum commune, model for mushroom formation.^[10]

Schizosaccharomyces pombe, fission yeast, (cell cycle, cell polarity, RNAi, centromere structure and function, transcription).

Ustilago maydis
, dimorphic yeast and plant pathogen of maize (dimorphism, plant pathogen, transcription).

Plants

Vascular plants

Arabidopsis thaliana

dicot of the family Brassicaceae is closely related to the mustard plant. Its small stature and short generation time facilitates rapid genetic studies,^[11] and many phenotypic and biochemical mutants have been mapped.^[11] Arabidopsis was the first plant to have its genome sequenced.^[11] Its genome sequence, along with a wide range of information concerning Arabidopsis, is maintained by the TAIR database.^[11]
(Plant physiology, Developmental biology, Molecular genetics, Population genetics, Cytology, Molecular biology
)

diploid level.^[12]
(Evolutionary ecology, Population genetics, Molecular ecology, Evolutionary biology, Ecological genetics
)

Selaginella moellendorffii, remnant of an ancient lineage of vascular plants that is key to understanding the evolution of land plants. It has a small genome size (~110Mb) and its sequence was released by the Joint Genome Institute in early 2008. (Evolutionary biology, Molecular biology)

Brachypodium distachyon, emerging experimental model grass that has many attributes that make it an excellent model for temperate cereals. (Agronomy, Molecular biology, Genetics)

C4 photosynthesis and related bioenergy grasses.^[13]^[14]

Lotus japonicus, model legume used to study the symbiosis responsible for nitrogen fixation. (Agronomy, Molecular biology)

Lemna gibba

pure culture, microbial action can be excluded. Lemna is being used as a recombinant expression system for economical production of complex biopharmaceuticals. It is also used in education to demonstrate population growth curves
.

transposons ("jumping genes"). Many DNA markers have been mapped and the genome has been sequenced. (Genetics, Molecular biology, Agronomy
)

Medicago truncatula, model legume, closely related to the common alfalfa. Its rather small genome is currently being sequenced. It is used to study the symbiosis responsible for nitrogen fixation. (Agronomy, Molecular biology)

Mimulus guttatus, model organism used in evolutionary and functional genomes studies. The genus Mimulus contains c. 120 species and is in the family Phrymaceae. Several genetic resources have been designed for the study of this genus and some are free access (http://www.mimulusevolution.org
)

Nicotiana benthamiana, model organism for plant-pathogen studies.^[15]

Nicotiana tabacum cv. BY-2 (Tobacco BY-2 cells), suspension cell line from tobacco (Nicotiana tabacum) that is useful for general plant physiology studies at the cell level. The genome of this particular cultivar will not be sequenced in the near future, but sequencing of its wild species Nicotiana tabacum is presently in progress. (Cytology, Plant physiology, Biotechnology)

Oryza sativa (Rice) is used as a model for cereal biology. It has one of the smallest genomes of any cereal species, and sequencing of its genome is finished.^[16] (Agronomy, Molecular biology)

Physcomitrella patens

Populus, genus used as a model in forest genetics and woody plant studies. It has a small genome size, grows very rapidly, and is easily transformed. The genome sequence of black cottonwood (Populus trichocarpa) is publicly available.^[17]

Other Archaeplastida

flagella and motility, regulation of metabolism, cell–cell recognition and adhesion, response to nutrient deprivation and many other topics. Chlamydomonas reinhardtii has well-studied genetics, with many known and mapped mutants and expressed sequence tags, and there are advanced methods for genetic transformation and selection of genes.^[18] Sequencing of the Chlamydomonas reinhardtii genome was reported in October 2007.^[19] A Chlamydomonas genetic stock center exists at Duke University, and an international Chlamydomonas research interest group meets on a regular basis to discuss research results. Chlamydomonas is easy to grow on an inexpensive defined medium
.

non-vascular plant(and so the only "primitive" plant) with its genome completely sequenced.^[20] Moreover, it is currently the only land plant with efficient gene targeting that enables gene knockout.^[21] The resulting knockout mosses are stored and distributed by the International Moss Stock Center. (Plant physiology, Evolutionary biology, Molecular genetics, Molecular biology
)

liverwort
that is also emerging as a model for plant biology and development.

Animals

Invertebrates
Caenorhabditis elegans

Porifera used as a model for evolutionary developmental biology and comparative genomics^[22]

Arbacia punctulata, the purple-spined sea urchin, classical subject of embryological studies

cytoskeletal
rearrangements

Chordata used as a model for understanding the evolution of nonchordate deuterostomes, invertebrate chordates, and vertebrates^[23]

Caenorhabditis elegans, a nematode, usually called C. elegans^[24] - an excellent model for understanding the genetic control of development and physiology. C.elegans has a fixed number of 1031 cells. C. elegans was the first multicellular organism whose genome was completely sequenced

Callosobruchus maculatus, the bruchid beetle, used to study sexual selection and sexual conflict

Chorthippus parallelus
(the meadow grasshopper), used to study sexual selection and sexual conflict

Ciona intestinalis, a sea squirt

Daphnia spp., small planktonic crustaceans, highly sensitive to pollution, used for evaluating environmental toxicity of chemicals on aquatic invertebrates.^[25]

Coelopidae, seaweed flies, used to study sexual selection and sexual conflict

Diopsidae
, stalk-eyed flies, used to study sexual selection and sexual conflict

Drosophila, usually the species Drosophila melanogaster – a kind of fruit fly, famous as the subject of genetics experiments by Thomas Hunt Morgan and others. Easily raised in lab, rapid generations, mutations easily induced, many observable mutations. Recently, Drosophila has been used for neuropharmacological research.^[26] (Molecular genetics, Population genetics, Developmental biology).

Euprymna scolopes (the Hawaiian bobtail squid), model for animal-bacterial symbiosis, bioluminescent vibrios

Galleria mellonella (the greater wax moth), the larvae of which are an excellent model organism for in vivo toxicology and pathogenicity testing, replacing the use of small mammals in such experiments.

Gryllus bimaculatus (the field cricket), used to study sexual selection and sexual conflict

Cnidarian is the model organism to understand the processes of regeneration and morphogenesis, as well as the evolution of bilaterian body plans^[27]

Loligo pealei, a squid is the subject of studies of nerve function because of its giant axon
(nearly 1 mm diameter, roughly a thousand times larger than typical mammalian axons)

Lymnaea stagnalis (great pond snail), a widely used model mollusc, for the study of biomineralization, neurobiology, eco-toxicology, sexual selection and body asymmetry^[28]

Macrostomum lignano, a free-living, marine flatworm, a model organism for the study of stem cells, regeneration, ageing, gene function, and the evolution of sex. Easily raised in the lab, short generation time, indetermined growth, complex behaviour^[29]

immunity and in vivo imaging, replacing mice and rats in such experiments.^[30]^[31]^[32]

Mnemiopsis leidyi, from the phylum Ctenophora (comb jelly) used as a model for evolutionary developmental biology and comparative genomics^[33]^[34]

Nematostella vectensis, a sea anemone from the phylum Cnidaria used as a model for evolutionary developmental biology and comparative genomics^[35]^[36]

appendicularian, a free-swimming tunicate (or urochordate)

Ormia ochracea, a tachinid fly used to study sound localization.^[38]

Porifera) used as a model in evolutionary developmental biology^[39]

evo-devo
) studies, with an extensive toolbox for genetic manipulation.
Platynereis dumerilii a marine polychaetous annelid, which evolved very slowly and therefore retained many ancestral features.^[40]

Podisma spp., in the Alps, used to study sexual selection and sexual conflict

Pristionchus pacificus, a roundworm used in evolutionary developmental biology in comparative analyses with C. elegans

Scaptomyza flava, herbivorous leaf miner fly nested in the Drosophila, and a close relative of D. melanogaster.^[41]

Scathophaga stercoraria (the yellow dung fly), used to study sexual selection and sexual conflict

Schmidtea mediterranea (freshwater planarian), a model for regeneration and development of tissues such as the brain and germline

motor pattern generation
seen in all repetitive motions

Strongylocentrotus purpuratus (the purple sea urchin), widely used in developmental biology

Symsagittifera roscoffensis, a flatworm, subject of studies of bilaterian body plan development

behavioural ecology
experiments

Trichoplax adhaerens, simple free-living animal from the phylum Placozoa used as a model in evolutionary developmental biology and comparative genomics^[42]

Tubifex tubifex, an oligochaeta used for evaluating environmental toxicity of chemicals on aquatic and terrestrial worms.^[43]

Vertebrates

Laboratory mice

Canis lupus familiaris (Dog), important respiratory and cardiovascular model, also contributed to the discovery of classical conditioning.

Felis sylvestris catus (Cat), used in neurophysiological research.

Mustela furo (Ferret), used as a model organism to study influenza A virus infection.

Ambystoma mexicanum (Axolotl), used to study regeneration and developmental processes

Bombina variegata
, used to study sexual selection and sexual conflict

Anolis carolinensis (Carolina anole), used to study reptile genomics

Gallus gallus domesticus (Chicken), used for developmental studies, as it is an amniote and excellent for micromanipulation (e.g. tissue grafting) and over-expression of gene products.

Sigmodon hispidus
(Cotton rat), formerly used in polio research.

Mesocricetus auratus (Golden hamster), first used to study kala-azar (leishmaniasis).

Cavia porcellus (Guinea pig), used by Robert Koch and other early bacteriologists as a host for bacterial infections, hence a byword for "laboratory animal" even though less commonly used today.

Myotis lucifugus (Little brown bat), used to prove echolocation exists in bats in 1930s and also used in experiments predicting microbat behavior as it is a reliable species that has typical features of a temperate bat species.

Oryzias latipes
(Medaka, or Japanese ricefish), important model in developmental biology, and has the advantage of being much sturdier than the traditional zebrafish.

wheel-running behavior.^[44] (Quantitative genetics, Molecular evolution, Genomics
)

Heterocephalus glaber (Naked mole-rat), studied for their characteristic pain insensitivity, thermoregulation, cancer resistance, eusociality, and longevity.

Nothobranchius furzeri, is studied because of their extreme short-lifespan in research on aging, disease and evolution.

Astyanax mexicanus (
blind cave fish), studied for their rapid convergent evolution of multiple traits across multiple populations, including troglomorphism, circadian rhythms
, and sleep

Columba livia domestica (Pigeon), studied extensively for cognitive science and animal intelligence

Poecilia reticulata
(Guppy), used to study sexual selection and sexual conflict

Rattus norvegicus (Rat), particularly useful as a toxicology model; also particularly useful as a neurological model and source of primary cell cultures, owing to the larger size of organs and suborganellar structures relative to the mouse. (Molecular evolution, Genomics
)

infectious disease and cognition
.

Petromyzon marinus (Sea lamprey), spinal cord research

pufferfish), has a small genome with little junk DNA
.

Gasterosteus aculeatus (Three-spined stickleback), fish used to study ethology and behavioral ecology.

Xenopus laevis (African clawed frog), the eggs and embryos from these frogs are used in developmental biology, cell biology, toxicology, and neuroscience^[45]^[46]

song system of songbirds and the study of non-mammalian auditory systems
.

Danio rerio (Zebrafish), freshwater fish with a transparent body during early development, which provides unique visual access to the animal's internal anatomy. Zebrafish are used to study development, toxicology and toxicopathology,^[47] specific gene function and roles of signaling pathways.

References

PMID 32678091
.

^ "Streptomyces coelicolor". John Innes Center. Archived from the original on 11 October 2018. Retrieved 13 April 2018.

IEEE
.

^
PMID 21265868
.

^ The Macronuclear Genome of Stentor coeruleus Reveals Tiny Introns in a Giant Cell

PMID 10839819
.

ISBN 978-0-19-512236-7
.

S2CID 244421564
.

^ "Home - Rhizophagus irregularis DAOM 181602 v1.0". mycocosm.jgi.doe.gov. Retrieved 25 May 2023.

PMID 20622885
.

^ ^a ^b ^c ^d About Arabidopsis on The Arabidopsis Information Resource page (TAIR)

PMID 22059452
.

PMID 20693355
.

PMID 24121645
.

PMID 18616398
.

PMID 17697381
.

^ "Populus trichocarpa (Western poplar)". Phytozome. Retrieved 22 July 2013.

^ "Chlamydomonas reinhardtii resources at the Joint Genome Institute". Archived from the original on 23 July 2008. Retrieved 1 February 2015.

^ Chlamydomonas genome sequenced published in Science, 12 October 2007

^
S2CID 11115152
.

doi:10.1016/S1360-1385(98)01257-6
.

PMID 20686567
.

PMID 18562680
.

ISBN 978-0-87969-532-3
.

S2CID 38046915
.

PMID 12498730
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PMID 20228792
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PMID 32539932
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doi:10.1111/j.1439-0469.2005.00299.x. Archived from the original
on 5 January 2013.

PMID 37468502
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PMID 36433960
.

PMID 37378344
.

PMID 19108762
.

PMID 20920347
.

PMID 15666346
.

S2CID 9868191
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^ The Appendicularia Facility at the Sars International Centre for Marine Molecular Biology

S2CID 85233362
.

PMID 17090697
.

PMID 12888005
.

PMID 21073583
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PMID 18719581
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doi:10.1002/etc.5620100811
.

PMID 23325861
.

PMID 20334828
.

PMID 21963197
.

PMID 12597434
.

v
t
e
Major model organisms in genetics

Lambda phage

E. coli

Chlamydomonas

Tetrahymena

Budding yeast

Fission yeast

Neurospora

Maize

Arabidopsis

Medicago truncatula

C. elegans

Drosophila

Xenopus

Zebrafish

Rat

Mouse

Retrieved from "https://en.wikipedia.org/w/index.php?title=List_of_model_organisms&oldid=1219856416"

[1] PMID 32678091
.

[John-Innes-2] "Streptomyces coelicolor". John Innes Center. Archived from the original on 11 October 2018. Retrieved 13 April 2018.

[Zhou-et-al-2011-3] IEEE
.

[pmid21265868-4] 
PMID 21265868
.

[5] The Macronuclear Genome of Stentor coeruleus Reveals Tiny Introns in a Giant Cell

[pmid10839819-6] PMID 10839819
.

[7] ISBN 978-0-19-512236-7
.

[8] S2CID 244421564
.

[9] "Home - Rhizophagus irregularis DAOM 181602 v1.0". mycocosm.jgi.doe.gov. Retrieved 25 May 2023.

[10] PMID 20622885
.

[TAIR-11] About Arabidopsis on The Arabidopsis Information Resource page (TAIR)

[12] PMID 22059452
.

[13] PMID 20693355
.

[JiangBarbier2013-14] PMID 24121645
.

[15] PMID 18616398
.

[16] PMID 17697381
.

[17] "Populus trichocarpa (Western poplar)". Phytozome. Retrieved 22 July 2013.

[18] "Chlamydomonas reinhardtii resources at the Joint Genome Institute". Archived from the original on 23 July 2008. Retrieved 1 February 2015.

[19] Chlamydomonas genome sequenced published in Science, 12 October 2007

[Rensing-20] 
S2CID 11115152
.

[21] :10.1016/S1360-1385(98)01257-6
.

[PMID20686567-22] PMID 20686567
.

[23] PMID 18562680
.

[24] ISBN 978-0-87969-532-3
.

[25] S2CID 38046915
.

[26] PMID 12498730
.

[27] PMID 20228792
.

[28] PMID 32539932
.

[29] :10.1111/j.1439-0469.2005.00299.x. Archived from the original
on 5 January 2013.

[30] PMID 37468502
.

[31] PMID 36433960
.

[32] PMID 37378344
.

[33] PMID 19108762
.

[34] PMID 20920347
.

[35] PMID 15666346
.

[36] S2CID 9868191
.

[37] The Appendicularia Facility at the Sars International Centre for Marine Molecular Biology

[38] S2CID 85233362
.

[39] PMID 17090697
.

[40] PMID 12888005
.

[41] PMID 21073583
.

[42] PMID 18719581
.

[43] :10.1002/etc.5620100811
.

[44] PMID 23325861
.

[wallingford-45] PMID 20334828
.

[Harland-46] PMID 21963197
.

[47] PMID 12597434
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