, one of the most famous subjects for experiments]]
A is a Species that is extensively studied to understand particular Biological Phenomena , with the expectation that discoveries made in the organism model will provide insight into the workings of other organisms. In particular, model organisms are widely used to explore potential causes and treatments for human Disease when experimentation on humans would be unfeasible or Unethical . This strategy is made possible by the Common Descent of all living organisms, and the conservation of Metabolic and Developmental pathways and Genetic Material over the course of Evolution . 1
Often, model organisms are chosen on the basis that they are amenable to experimental manipulation. This usually will include characteristics such as short life-cycle, techniques for genetic manipulation ( Inbred strains, Stem Cell lines, and Transfection systems) and non-specialist living requirements. Sometimes, the genome arrangement facilitates the sequencing of the model organism's genome, for example, by being very compact or having a low proportion of Junk DNA (e.g. Yeast , Arabidopsis , or Pufferfish ).
When researchers look for an organism to use in their studies, they look for several traits. Among these are size, generation time, accessibility, manipulation, genetics, conservation of mechanisms, and potential economic benefit. As comparative Molecular Biology has become more common, some researchers have sought model organisms from a wider assortment of Lineages on the Tree Of Life .
There are many model organisms. One of the first model systems for Molecular Biology was the bacterium '' Escherichia Coli '', a common constituent of the human digestive system. Several of the bacterial viruses ( Bacteriophage ) that infect '' E. Coli '' also have been very useful for the study of gene structure and Gene Regulation (e.g. phages Lambda and T4 ).
In Eukaryote s, several yeasts, particularly '' Saccharomyces Cerevisiae '' ("baker's" or "budding" yeast), have been widely used in Genetics and Cell Biology , largely because they are quick and easy to grow. The Cell Cycle in a simple Yeast is very similar to the cell cycle in Human s and is regulated by Homologous proteins. The fruit fly '' Drosophila Melanogaster '' is studied, again, because it is easy to grow for an animal, has various visible congenital traits and has a polytene (giant) chromosome in its salivary glands that can be examined under a light microscope. The Roundworm '' Caenorhabditis Elegans '' is studied because it has very defined development patterns involving fixed numbers of cells, and it can be rapidly assayed for abnormalities.
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- '' Chlamydomonas Reinhardtii '' - a unicellular Green Alga used to study Photosynthesis , Flagella and Motility , regulation of Metabolism , cell-cell recognition and Adhesion , response to Nutrient Deprivation and many other topics. Chlamy has a well-studied genetics, with many known and mapped mutants, and there are advanced methods for genetic transformation and selection of genes. 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 .
- '' Dictyostelium Discoideum '' is used in Molecular Biology and Genetics (its Genome has been sequenced), and is studied as an example of Cell Communication , Differentiation , and Programmed Cell Death .
- '' Tetrahymena Thermophila '' - a free living freshwater Ciliate Protozoan .
- '' Emiliania Huxleyi '' - a unicellular marine Coccolithophore alga, extensively studied as a model Phytoplankton species.
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- '' Aspergillus Nidulans '', subject of genetics studies
- '' Neurospora Crassa '' - orange bread Mold (genetic studies of meiosis, metabolic regulation, and circadian rhythm)Rowland H. Davis: Neurospora. Contributions of a Model Organism. Oxford University Press, Oxford, 2000. ISBN 0-19-512236-4.
- '' Ashbya Gossypii '', cotton pathogen, subject of genetics studies (polarity, cell cycle)
- '' Saccharomyces Cerevisiae '', baker's Yeast or budding yeast (used in brewing and baking)
- '' Schizosaccharomyces Pombe '', fission yeast, subject of genetic studies
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- '' Arabidopsis Thaliana '', currently the most popular model plant. This herbaceous Dicot is a Crucifer , a member of the Mustard family. Its small stature and short generation time facilitates genetic studies, and many phenotypic and biochemical mutants have been mapped. Arabidopsis was the first plant to have its Genome Sequenced . Its genome sequence, along with a wide range of information concerning ''Arabidopsis'', is maintained by the TAIR database.
''( Plant Physiology , Developmental Biology , Molecular Genetics , Population Genetics , Cytology , Molecular Biology )''
- '' Brachypodium Distachyon '' is an emerging experimental model grass that has many attributes that make it an excellent model for temperate cereals. ''( Agronomy , Molecular Biology , Genetics )''
- '' Lotus Japonicus '' a model Legume used to study the symbiosis responsible for Nitrogen Fixation . ''( Agronomy , Molecular Biology )'''']]
- '' Lemna Gibba '' is a rapidly-growing aquatic Monocot , one of the smallest flowering plants. Lemna growth assays are used to evaluate the toxicity of chemicals to plants in Ecotoxicology . Because it can be grown in Pure Culture , microbial action can be excluded. Lemna is being used as a recombinant Expression System for economical production of complex Biopharmaceutical s. It is also used in education to demonstrate Population Growth Curves .
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- Maize (''Zea mays'' L.) is a cereal grain. It is a diploid monocot with 10 large chromosome pairs, easily studied with the microscope. Its genetic features, including many known and mapped phenotypic mutants and a large number of progeny per cross (typically 100-200) facilitated the discovery of Transposon s ("jumping genes"). Many DNA markers have been mapped and the genome is being sequenced. ''( Genetics , Molecular Biology , Agronomy )''
- '' Medicago Truncatula '' is a 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 )''
- '' Tobacco BY-2 Cells '' is suspension Cell Line from Tobacco ''(Nicotiana tabaccum)''. Useful for general plant physiology studies on Cell level. Genome of this particular Cultivar will be not sequenced (at least in near future), but sequencing of its wild Species ''Nicotiana tabaccum'' is presently in progress. ''( Cytology , Plant Physiology , Biotechnology )''
- Rice ''(Oryza sativa)'' 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 in progress. ''( Agronomy , Molecular Biology )''
- '' Physcomitrella Patens '' is a Moss increasingly used for studies on development and Molecular Evolution of plants. It is so far the only Non-vascular Plant (and so the only " Primitive " plant) with its genome completely sequenced .
- ''Populus'' is a 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.
- See also '' Chlamydomonas Reinhardtii '', above under Protists.
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- '' Arbacia Punctulata '', the purple-spined Sea Urchin , classical subject of embryological studies
- '' Aplysia '', a sea slug, whose ink release response serves as a model in Neurobiology and whose Growth Cones serve as a model of Cytoskeletal rearrangements.
- '' Caenorhabditis Elegans '', a Nematode , usually called ''C. elegans'' Riddle, Donald L.; Blumenthal, Thomas; Meyer, Barbara J.; and Priess, James R. (Eds.). (1997). ''C. ELEGANS II''. Woodbury, NY: Cold Spring Harbor Press. ISBN 0-87969-532-3. Full text available on-line . - an excellent model for understanding the genetic control of development and physiology. ''C. elegans'' was the first multicellular organism whose genome was completely sequenced
- '' Ciona Intestinalis '', a sea squirt
- '' 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 research2. ''( Molecular Genetics , Population Genetics , Developmental Biology )''.
- '' Euprymna Scolopes '', the Hawaiian bobtail squid, model for animal-bacterial Symbiosis , Bioluminescent Vibrio s
- '' Hydra (genus) '', a Cnidarian , is the model organism to understand the evolution of bilaterian body plans
- '' Loligo Pealei '', a squid, subject of studies of nerve function because of its giant axon (nearly 1 mm diameter, roughly a thousand times larger than typical mammalian axons)
- '' Pristionchus Pacificus '', a roundworm used in evolutionary developmental biology in comparative analyses with ''C. elegans''
- '' Stomatogastric Ganglion '', Arthropods digestive systems are a model for Motor Pattern Generation seen in all repetitive motions
- '' Symsagittifera Roscoffensis '', a Flatworm , subject of studies of bilaterian body plan development
- '' Tribolium Castaneum '', the flour beetle - a small, easily kept Darkling Beetle used especially in Behavioural Ecology experiments
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- '' Cavia Porcellus '', the 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
- Chicken (''Gallus gallus domesticus'') - used for developmental studies, as it is an Amniote and excellent for micromanipulation (e.g. tissue grafting) and over-expression of gene products
- Dog (''Canis lupus familiaris'') - an important respiratory and cardiovascular model
- Hamster - first used to study kala-azar ( Leishmaniasis )
- Mouse ('' Mus Musculus '') - the classic model vertebrate. Many inbred strains exist, as well as lines selected for particular traits, often of medical interest, e.g. body size, obesity, muscularity. ''( Quantitative Genetics , Molecular Evolution , Genomics )''
- '' Homo Sapiens '' (humans) - used in various clinical studies
- '' Oryzias Latipes '', Medaka (the Japanese ricefish) is an important model in developmental biology, and has the advantage of being much sturdier than the traditional Zebrafish
- Rat ('' Rattus Norvegicus '') - 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 )''
- Rhesus Macaque - used for studies on Infectious Disease and Cognition
- ''Sigmodon hispidus'' - Cotton Rat formerly used in polio research
- '' Taeniopygia Guttata '' or zebra finch - used in the study of the Song System of Songbirds and the study of non-mammalian Auditory Systems
- '' Takifugu Rubripres '', a Pufferfish - has a small genome with little Junk DNA
- '' Xenopus Laevis '', the African clawed Frog - used in developmental biology because of its large Embryo s and high tolerance for physical and pharmacological manipulation
- Zebrafish (''Danio rerio''), a freshwater fish, has a nearly transparent body during early development, which provides unique visual access to the animal's internal anatomy. Zebrafish are used to study development, toxicology and toxicopathologySpitsbergen J.M. and Kent M.L. (2003). The state of the art of the zebrafish model for toxicology and toxicologic pathology research--advantages and current limitations. ''Toxicol Pathol.'' (Supplement), 62-87. PubMed Abstract Link => PMID 12597434., specific gene function and roles of signaling pathways.
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