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Exploring Genotypes and Phenotypes of Longhorn Cattle.

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1 Exploring Genotypes and Phenotypes of Longhorn Cattle

2 Phenotype – describes the physical appearance of a specific genetic trait or characteristic Genotype – the genetic code consisting of a pair of alleles that describes a inheritable characteristic or trait DNA - a double helix chain of nucleic acid in a cell that carries genetic and hereditary information Chromosomes – a strand of DNA that carries genes in linear order Gene- a unit of inheritable information arranged located within chromosomes Allele – one member of a pair of genes that determines genetic characteristics Wild-type Allele – the gene or characteristic that most commonly occurs in the natural environment this allele is identified as wild by a + symbol following it’s letter designation. Heterozygous - a pair of alleles that contain two different alleles one of which is dominant Homozygous – a pair of identical alleles Dominant Trait – a trait that will appear in offspring if one allele is present. This trait will appear in both heterozygous and homozygous gene pairs. Recessive Trait – a trait that will appear only if two copies of the allele are present. This trait only appears in homozygous gene pairs Incomplete dominance – an allele that is not completely recessive to the dominant allele

3 All color in cattle is the result of two pigments black and red. Black can look brown in lower concentrations. Red can appear orange or yellow. White areas are a result of lack of both pigments. Three alleles control the amount of pigments in cattle E D, E+ and e The E D allele produces black pigment. The E+ allele is called the wild-type allele and produces both red and black pigments. Calves are red at birth and turn dark brown or gray as they mature, usually with a light muzzle. The e allele produces red pigment. The wild-type allele is thought to represent the ancestral coloration of the wild Aurochs, from which modern Bos taurus cattle breeds have descended.

4 BlackDark Brown or GrayRed E D /E D E+/E+ (wild allele) e/e The black allele is dominant over both wild and red alleles. The wild allele is dominant over the red allele. (E D > E+ > e) Three Alleles make the base color genetics more complex list all possible phenotypes under their genotypes. Possible Allele Combinations: E D E D, E+ E+, e e, E D E+, E D e, E+ e

5 Fill out the Punnett Squares for all possible homozygous color crosses. How do the percentages in genotype results compare with phenotype results in homozygous crosses?

6 Black Allele X Wild Type Allele Wild Type Allele X Red Allele Black Allele X Red Allele Genotype: 100% E D /E+ Phenotype: 100% Black Genotype: 100 % E+/e Phenotype: 100 % Dark Reddish Brown or Reddish Gray Genotype: 100 % E D /e Phenotype: 100 % Black

7 Same Genotypes Heterozygous X Heterozygous Two Alleles Homozygous X Heterozygous Now try the following heterozygous crosses: (E D > E+ > e) List all possible phenotypes and genotypes and their percentages for each cross.

8 a. The cow and calf are both homozygous. b. The calf inherited her color genes from her sire. c. The cow is heterozygous and the calf inherited her recessive gene. d. This cow could not be this calf’s dam.

9 Three Alleles Homozygous X Heterozygous Different Genotypes Heterozygous X Heterozygous

10 Seven pairs of alleles control the patterns of color distribution. The pairing or combination of some of these genes creates additional patterns Pigment reducing genes result in lighter variations of the pigment and pattern alleles. All colors and patterns including the roans, spots, brindles, speckled patterns, linebacks, grullas, reds, yellows, oranges, browns, and blacks are a result of pigment concentrations and genetic patterns.

11 (Phenotypes below are a few examples of each color variations and possible genotypes) Brindle Alleles Br> br ( linear streaks of light and dark color patterned over the base color.) E+/E+, Br/br Roan Alleles R/r+ (base color is mixed with evenly distributed white to give a faded appearance.) E D /E D, R/r+ Dilution Allele D S > d S + E D /E D, D S /D S E+/E+, D S /d S + r/r, D S /D S

12 Spotted and Lineback Alleles SP>S+>s (The lineback phenotypes will appear to have a complete or broken line of white along their back and belly.) e/e, s/s Color-sided alleles Cs>cs+ (A pattern similar in appearance to line back where color appears on the back and belly.) e/e, Cs/cs e/e, Cs/Cs Dun Allele s D N +> d N Brockling Alleles Bc>bc+ r/r, D N +/d N r/r, s/s, Bc/Bc r/r, s/s, Bc/bc Some allele pairs produce a even wider variety of patterns when combined with other pairs these include: Brockling, Dilution / Dun, and Color Sided / Roan and Spotted Alleles

13 The combination of color alleles produces an enormous variety of color possibilities. Historical Author J. Frank Dobie wrote, “The colors were more varied than those of the rainbow. … The shadings and combination of colors were so various that no two were alike" - J. Frank Dobie, "The Longhorns" Geneticist study the longhorn for several reasons. Most colors and color patterns found in all cattle breeds occur in the longhorn. Unlike other domestic breeds of cattle longhorns developed through a process of natural selection in the 17 th, 18 th, and 19 th centuries. Longhorn genetics are also studied to establish genetic markers that separate it as a breed.

14 Dr David M. Hillis, ”The Genetics of Coloration in Texas Longhorns”, Parts I-V, 2004, University of Texas, http://doublehelixranch.com/color.htmlhttp://doublehelixranch.com/color.html Dr. David Kirkpatrick, “Color Inheritance in Beef Cattle”, Animal Science, University of Tennesse, http://animalscience.ag.utk.edu/beef/pdf/ColorInheritenceFDK2004.pdf http://animalscience.ag.utk.edu/beef/pdf/ColorInheritenceFDK2004.pdf This Power Point was developed by Kristene Newcomb for Cattlemen’s Texas Longhorn Conservancy. You are welcome to use it in your class room. If you do use it please give me some feed back and share it with others. Kristene@folsomfallies.com


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