A calico cat is a domestic cat with two X chromosomes (almost always a female) who is typically about 25% to 75% white and also has mostly large patches of (usually) orange and black or (sometimes) cream and grey. A calico is not to be confused with a tortoiseshell, who has a mostly mottled coat of black/orange or grey/cream and commonly has anywhere from no white at all to nearly 100% white. However, outside North America, the calico pattern is more usually called tortoiseshell and white. In the province of Quebec, Canada, they are sometimes called chatte d'Espagne (French for '(female) cat of Spain'). Other names include brindle, tricolor cat, tobi mi-ke (Japanese for 'triple fur'), and lapjeskat (Dutch for 'patches cat'); calicoes with diluted coloration have been called calimanco or clouded tiger. Occasionally, the tri-color calico coloration is combined with a tabby patterning; this calico-patched tabby is called a caliby.
"Calico" refers only to a color pattern on the fur, not to a cat breed or any reference to any other traits, such as the eyes of a cat. Among the breeds whose standards allow calico coloration are the Manx, American Shorthair, British Shorthair, Persian, Arabian Mau, Japanese Bobtail, Exotic Shorthair, Siberian, Turkish Van, Turkish Angora and Norwegian Forest Cat.
Because genetic determination of coat colors in calico cats is linked to the X chromosome, calicos are nearly always female, with one color linked to the maternal X chromosome and a second color linked to the paternal X chromosome. Because males only have one X chromosome, they can be orange or black, but a male calico would have to have the rare condition three sex chromosomes (having two X chromosomes and one Y chromosome) in order to be calico. In addition to other symptoms caused by the condition, these male calicos are often sterile.
Calico cats can also be lighter in color — dilute calicos. Fairly common among calicos, dilutes are distinguished by having grey (known as blue), cream and gold colors instead of the traditional black, red and brown patches along with their white. Dilute calicos are also called light calicos because they have no dark colors in their coats.
The coat pattern of calico cats does not define any breed, but occurs incidentally in cats that express a range of color patterns; accordingly the effect has no definitive historical background. However, the existence of patches in calico cats was traced to a certain degree by Neil Todd in a study determining the migration of domesticated cats along trade routes in Europe and Northern Africa. The proportion of cats having the orange mutant gene found in calicoes was traced to the port cities along the Mediterranean in Greece, France, Spain and Italy, originating from Egypt.
In genetic terms, calico cats are tortoiseshells in every way, except that in addition they express a white spotting gene. There is however one anomaly: as a rule of thumb the larger the areas of white, the fewer and larger the patches of ginger and dark or tabby coat. In contrast a non-white-spotted tortoiseshell usually has small patches of color or even something like a salt-and-pepper sprinkling. This reflects the genetic effects on relative speeds of migration of melanocytes and X-inactivation in the embryo.
Serious study of calico cats seems to have begun about 1948 when Murray Barr and his graduate student E.G. Bertram noticed dark, drumstick-shaped masses inside the nuclei of nerve cells of female cats, but not in male cats. These dark masses became known as Barr bodies. In 1959, Japanese cell biologist Susumu Ohno determined the Barr bodies were X chromosomes. In 1961, Mary Lyon proposed the concept of X-inactivation: one of the two X chromosomes inside a female mammal shuts off. She observed this in the coat color patterns in mice.
Calico cats are almost always female because the locus of the gene for the orange/non-orange coloring is on the X chromosome. In the absence of other influences, such as color inhibition that causes white fur, the alleles present in those orange loci determine whether the fur is orange or not. Female cats, like all female placental mammals, normally have two X chromosomes. In contrast, male placental mammals, including chromosomally stable male cats, have one X and one Y chromosome. Since the Y chromosome does not have any locus for the orange gene, there is no chance that an XY male could have both orange and non-orange genes together, which is what it takes to create tortoiseshell or calico coloring.
One exception is that in rare cases faulty cell division may leave an extra X chromosome in one of the gametes that produced the male cat. That extra X then is reproduced in each of his cells, a condition referred to as XXY, or Klinefelter syndrome. Such a combination of chromosomes could produce tortoiseshell or calico markings in the male, in the same way as XX chromosomes produce them in the female.
All but about one in three thousand of the rare calico or tortoiseshell male cats are sterile because of the chromosome abnormality, and breeders reject any exceptions for stud purposes because they generally are of poor physical quality and fertility. In any event, because the genetic conditions for calico coloring are X linked, a fertile male calico's coloring would not have any determination in the coloring of any male offspring (who would receive the Y, not the X chromosome from their father).
As Sue Hubble stated in her book Shrinking the Cat: Genetic Engineering before We Knew about Genes,
The mutation that gives male cats a ginger-colored coat and females ginger, tortoiseshell, or calico coats produced a particularly telling map. The orange mutant gene is found only on the X, or female, chromosome. As with humans, female cats have paired sex chromosomes, XX, and male cats have XY sex chromosomes. The female cat, therefore, can have the orange mutant gene on one X chromosome and the gene for a black coat on the other. The piebald gene is on a different chromosome. If expressed, this gene codes for white, or no color, and is dominant over the alleles that code for a certain color (i.e. orange or black), making the white spots on calico cats. If that is the case, those several genes will be expressed in a blotchy coat of the tortoiseshell or calico kind. But the male, with his single X chromosome, has only one of that particular coat-color gene: he can be not-ginger or he can be ginger (although some modifier genes can add a bit of white here and there), but unless he has a chromosomal abnormality he cannot be a calico cat.
It is currently impossible to reproduce the fur patterns of calico cats by cloning. Penelope Tsernoglou wrote "This is due to an effect called x-linked inactivation which involves the random inactivation of one of the X chromosomes. Since all female mammals have two X chromosomes, one might wonder if this phenomenon could have a more widespread impact on cloning in the future."
Cats of this coloration are believed to bring good luck in the folklore of many cultures. In the United States, these are sometimes referred to as money cats. A cat of the calico coloration is also the state cat of Maryland in the United States. In the late nineteenth century, Eugene Field published "The Duel", a beloved poem for children also known as "The Gingham Dog and the Calico Cat". In Japan, the Maneki-neko figures depict calico cats, bringing good luck; and Japanese sailors often had a calico ship's cat to protect against misfortune at sea.
- Bicolor cat
- Point coloration
- Tabby cat
- Maltese cat
- Deaf white cat
- Cat coat genetics
- Tortoiseshell cat
- Cat Colors FAQ: Common Colors - Torties, Patched Tabbies and Calicos Archived 9 October 2011 at WebCite
- Robinson, Richard. "Mosaicism". Genetics. New York: Macmillan Reference USA, 2003. 76-80.
- "Calico cat". Encyclopædia Britannica. Retrieved 5 December 2014.
- Todd, Neil B. (November 1977) Cats and Commerce. Scientific American.
- Hubbell, Sue. Shrinking the Cat:Genetic Engineering before We Knew about Genes. Boston: Houghton Mifflin, 2001.
- Robinson, Roy. Genetics for Cat Breeders and Veterinarians, Butterworth-Heinemann Medical, 1991. ISBN 978-0750635400
- Travis, John. "Silence of the Xs". Science News. 158 (6): 92–94. 5 August 2000.
- Gilbert, Scott F. "Transcriptional Regulation of an Entire Chromosome: Dosage Compensation." Developmental Biology, Sunderland, Mass.: Sinauer Associates, 2000.
- Gunter, Chris. "She Moves in Mysterious Ways". Nature 17 March 2005.
- Tsernoglou, Penelope Ann. "To Clone or Not to Clone: A Look at Why Cloning Fluffy and Fido Might Not Be in the Best Interests of Society and May Inevitably Pave the Way for Human Cloning." 25 April 2004. Web. 24 April 2010. <http://www.law.msu.edu>.
- Pearson-White, Sonia. "Mammalian Genetics: X/imprinting". The University of Virginia. 2004. Accessed 23 May 2010.
- Hartwell, Sarah (1995). "Feline Folktails - Cats in Folklore and Superstition". Retrieved 22 January 2009.
- Finegan, Edward; Rickford, John (2004). "Language in the USA: Themes for the Twenty-first Century". Cambridge University Press. Retrieved 22 January 2009.
- "Maryland State Cat: Calico Cat".
- Finlay, Katie (25 November 2017). "4 Things You Didn't Know About Calico Cats". iHeartCats.com. HomeLife Media. Retrieved 17 January 2018.
|Wikimedia Commons has media related to Calico cats.|