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File:Albino Rat.jpg

A laboratory rat is a rat of the species Rattus norvegicus which is bred and kept for scientific research. Laboratory rats have served as an important animal model for research in psychology, medicine, and other fields.

History Edit

File:Rat-baiting6.jpg

Laboratory rats share origins with their cousins in domestication, the fancy rats. In 18th century Europe, wild Brown rats ran rampant and this infestation fueled the industry of rat-catching. Rat-catchers would not only make money by trapping the rodents, but also by turning around and selling them for food, or more importantly, for rat-baiting. Rat-baiting was a popular, but brutal bloodsport which involved filling a pit with rats and timing how long it took for a terrier to kill them all. Over time, breeding the rats for these contests produced variations in color, notably the albino and hooded varieties. The first time one of these albino mutants was brought into a laboratory for a study was in 1828, in an experiment on fasting. Over the next 30 years rats would be used for several more experiments and eventually the laboratory rat became the first animal domesticated for purely scientific reasons.[1]

Over the years, rats have been used in many experimental studies, which have added to our understanding of genetics, diseases, the effects of drugs, and other topics in health and medicine. Laboratory rats have also proved valuable in psychological studies of learning and other mental processes. The historical importance of this species to scientific research is reflected by the amount of literature on it, roughly 50% more than that on mice.[1]

Domestic rats differ from wild rats in many ways. They are calmer and less likely to bite, they can tolerate greater crowding, they breed earlier and produce more offspring, and their brains, livers, kidneys, adrenal glands, and hearts are smaller.

Scientists have bred many strains or "lines" of rats specifically for experimentation. Most are derived from the albino Wistar rat, which is still widely used. Other common strains are the Sprague Dawley, Fischer 344,[2] Holtzman albino strains, the Long-Evans, and Lister black hooded rats. Inbred strains are also available but are not as commonly used as inbred mice.

MorrisWaterMaze

A lab rat in a Morris water maze.

Rat strains are generally not transgenic, or genetically modified, because the gene knockout and embryonic stem cell techniques that work in mice are relatively difficult in rats. This has disadvantaged many investigators, who regard many aspects of behavior and physiology in rats as more relevant to humans and easier to observe than in mice and who wish to trace their observations to underlying genes. As a result, many have been forced to study questions in mice that might be better pursued in rats. In October 2003, however, researchers succeeded in cloning two laboratory rats by nuclear transfer. So rats may begin to see more use as genetic research subjects. Much of the genome of Rattus norvegicus has been sequenced.[3]

Strains Edit

A strain, in reference to rodents, is a group in which all members are genetically identical. In rats, this is accomplished through inbreeding. By having this kind of population, it is possible to conduct experiments on the roles of genes, or conduct experiments that exclude variations in genetics as a factor. The opposite, outbred strains, are used when identical genotypes are unneccessary or a random population is required, and are more defined as stocks as opposed to strains.[4]

Wistar rat Edit

Wistar rats are an outbred strain of albino rats belonging to the species Rattus norvegicus. This strain was developed at the Wistar Institute in 1906 for use in biological and medical research, and is notably the first rat strain developed to serve as a model organism at a time when laboratories primarily used Mus musculus, or the common House mouse. More than half of all laboratory rat strains are descended from the original colony established by physiologist Henry Donaldson, scientific administrator Milton J. Greenman, and genetic researcher/embryologist Helen Dean King.[5][6]

The Wistar rat is currently one of the most popular rat strains used for laboratory research. It is characterized by its wide head, long ears, and having a tail length that is always less than its body length. The Sprague Dawley rat and Long-Evans rat strains were developed from Wistar rats.

Sprague Dawley rat Edit

The Sprague Dawley rat is an outbred multipurpose breed of albino rat used extensively in medical research.[7][8][9][10] Its main advantage is its calmness and ease of handling.[11] This breed of rat was first produced by the Sprague Dawley farms in Madison, Wisconsin (later to become the Sprague Dawley Animal Company). The breeding facilities were purchased first by Gibco and then by Harlan (now Harlan Sprague Dawley) in January 1980.[12]

Sprague Dawley rats possess several interesting anatomical features. Because the esophagus enters the stomach at the lesser curvature through a fold of tissue of the stomach, these rats are unable to vomit. They have no gall bladder. The left lung has only one lobe, while the right has four. During periods of stress, they produce dark tears, which contain a pigment that fluoresces under UV light.[13] (N.B. these features are true of all Rattus norvegicus: wild, tame and laboratory strains - not just the Sprague Dawley strain!)

The average litter size of the Sprague Dawley rat is 10.5. The adult body weight is 250-300g for females, and 450-520g for males. The typical life span is 2.5 - 3.5 years.[14]. These rats typically have increased tail to body length ratio compared with Wistar rats.

Long-Evans rat Edit

Long-Evans rats are an outbred strain of rats belonging to the species Rattus norvegicus. This strain was developed by Drs. Long and Evans in 1915 by crossing several Wistar females with a wild gray male. Long Evans rats are white with a black hood, or occasionally white with a brown hood. They are utilized as a multipurpose model organism, frequently in behavioral and obesity research.

Zucker rat Edit

Rat diabetic

Zucker rats were bred to be a genetic model for research on obesity and hypertension. They are named after Lois M. Zucker and Theodore F. Zucker, pioneer researchers in the study of the genetics of obesity. There are two types of Zucker rat: a lean Zucker rat, denoted as the dominant trait (Fa/Fa) or (Fa/fa); and the characteristically obese (or fatty) Zucker rat, which is actually a recessive trait (fa/fa), capable of weighing up to 1 kilogram (Template:Convert/LoffAonSoff)Template:Convert/test/A—more than twice the average weight.[15][16] Obese Zucker rats have high levels of lipids and cholesterol in their blood, are resistant to insulin without being hyperglycemic, and gain weight from an increase in both the size and number of fat cells.[17] Obesity in Zucker rats is primarily linked to their hyperphagic nature, an excessive hunger, however food intake does not fully explain the hyperlipidemia or overall body composition.[16][17]

Hairless rats Edit

File:Naked lab rats.jpg

It is estimated that there are over twenty five genes that cause recessive hairlessness in laboratory rats[18]. The more common ones are denoted as rnu (Rowett nude), fz (fuzzy), and shn (shorn). When an organism is identified as having a visible recessive trait, the gene pair (from the father and mother) is listed as such: rnu/rnu. The hairless rats maintained in labs have various characteristic health problems. All three types (rnu/rnu, fz/fz, and shn/shn) have curly whiskers and may potentially be identified as Patchwork rats. Despite their health problems and difficulties with weaning, they are all still fertile and have normal sized litters.[19]

  • Rowett nudes, first identified in 1953 in Scotland, have no thymus. The lack of this organ severely compromises their immune system, infections of the respiratory tract and eye increasing the most dramatically. Their average life span is about nine months.[19]
  • Fuzzy rats were identified in 1976 in a Pennsylvanian lab. The leading cause of death among fz/fz rats is ultimately a progressive kidney failure that begins around the age of one. Even in germ-free conditions, all males and 80% of females will die from kidney failure. Their average lifespan is 17 months for males and 20 months for females.[19]
  • Shorn rats were bred from Sprague Dawley rats in Connecticut in 1998.[20] They also suffer from severe kidney problems. All rats with this genotype die of severe kidney abnormalities by 14 months of age. Their average lifespan is only around 10 months.[19]

RCS rats Edit

The Royal College of Surgeons (RCS) rat is the first known animal with inherited retinal degeneration. Despite the fact that the defect is not known, the RCS rat is widely used for research in hereditary retinal dystrophies. [21]

See also Edit

References Edit

  1. 1.0 1.1 Krinke, George J. (June 15, 2000). "History, Strains and Models" The Laboratory Rat (Handbook of Experimental Animals), Gillian R. Bullock (series ed.), Tracie bunton (series ed.), 3–16, Academic Press.
  2. 43rd Annual Pathology of Laboratory Animals Course.
  3. Genome project. www.ensemble.org. URL accessed on 2007-02-17.
  4. Rules and Guidelines for Nomenclature of Mouse and Rat Strains.
  5. *Clause, B. T. (1998). The Wistar Institute Archives: Rats (Not Mice) and History, Mendel Newsletter February, 1998.
  6. The Wistar Institute:History. The Wistar Institute. URL accessed on 2008-11-09.
  7. Drachman RH, Root RK, Wood WB Jr. (1966). Studies on the effect of experimental nonketotic diabetic mellitus on antibacterial defense. J Exp Med 124: 227–40.
  8. Hsu CC, Lai SC (2007). Matrix metalloproteinase-2, -9 and -13 are involved in fibronectin degradation of rat lung granulomatous fibrosis caused by Angiostrongylus cantonensis. Int J Exp Pathol 88: 437–43.
  9. Horiuchi N, Suda T, Sasaki S, Takahashi H, Shimazawa E, Ogata E. (1976). Absence of regulatory effects of 1alpha25-dihydroxyvitamin D3 on 25-hydroxyvitamin D metabolism in rats constantly infused with parathyroid hormone. Biochem Biophys Res Commun 73: 869–75.
  10. Sukov W, Barth DS (1998). Three-dimensional analysis of spontaneous and thalamically evoked gamma oscillations in auditory cortex. J Neurophysiol 79: 2875–84.
  11. "Online Medical Dictionary". URL accessed on 2007-12-15.
  12. Harlan Sprague Dawley. URL accessed on 2007-12-15.
  13. Ace Animals, Inc.. URL accessed on 2008-10-06.
  14. Ace Animals website Retrieved on 2008-3-15.
  15. Kurtz, TW, RC Morris and HA Pershadsingh (1989). The Zucker fatty rat as a genetic model of obesity and hypertension. Hypertension 13 (6): 896–901.
  16. 16.0 16.1 Davis, Amy J. (January, 1997). The Heart of a Zucker. Research PennState 18 (1).
  17. 17.0 17.1 Kava, Ruth, M. R. C. Greenwood and P. R. Johnson (1990). Zucker (fa/fa) Rat. ILAR Journal 32 (3).
  18. Kim H, Panteleyev AA, Jahoda CA, Ishii Y, Christiano AM. Genomic organization and analysis of the hairless gene in four hypotrichotic rat strains. Mamm Genome. 2004 Dec;15(12):975-81.
  19. 19.0 19.1 19.2 19.3 Lee, Theresa Recessive Hairlessness: The True Hairless Rat. Rat and Mouse Club of America (RMCA). URL accessed on 2007-04-13.
  20. Moemeka, A. N., Hildebrandt, A.L., Radaskiewicz, P., & King, T. R. (1998). Shorn (shn): a new mutation causing hypotrichosis in the Norway rat. The Journal of Heredity, 89, 257-260 .
  21. Strauss O, Stumpff F, Mergler S, Wienrich M, Wiederholt M (1998). The Royal College of Surgeons Rat: An Animal Model for Inherited Retinal Degeneration with Still Unknown Genetic Defect. Acta Anatomica 162: 101–111.

External links Edit

Major Model Organisms in Psychology studies (Please edit)
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