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DiHybrid Punnett Squares

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Presentation on theme: "DiHybrid Punnett Squares"— Presentation transcript:

1 DiHybrid Punnett Squares
A How To Guide!

2 When we study two traits on different chromosomes, at one time, we call this a dihybrid cross.
You still follow the same process for Monohybrid crosses, but now there will be four times as many possibilities because we are studying two traits.

3 For example, let’s say a female guinea pig that is heterozygous for both fur color and coat texture is crossed with a male that has light fur color and is heterozygous for coat texture. What possible offspring can they produce? Dark fur color is dominant (D) and light fur (d) is recessive Rough coat texture (R) is dominant, while smooth coat (r) is recessive.

4 Step 1: Figure out the genotypes!!!!
The guinea pig that is heterozygous for both color and texture this means it has one allele for each trait. Therefore its genotype would be “DdRr”. The other guinea pig has light fur, since that is a recessive trait the genotype for that trait must be “dd”. It is also heterozygous for fur texture, which means a genotype of “Rr”. All together its overall genotype must be“ddRr”. DdRr ddRr

5 Step 2 and 3: The Punnett square will be larger now because there are more possible sperm and egg combinations. During the formation of sperm a “D” could go with a “R” producing a sperm “DR”, or a “D” could go with a “r” forming a sperm with “Dr”. Use the line method to figure out what gametes each guinea pig could make. (You should have four sets of letters in each square) See next page for answers! D d R r d d R r

6 D d R r DR,Dr,dR,dr d d R r dR,dr,dR,dr

7 Your new Punnett Square will have 16 small squares inside of it!
In this type of cross, you out two letters above each square instead of just one as in a monohybrid cross. See next slide…

8 D d R r DR,Dr,dR,dr d d R r dR,dr,dR,dr

9 DdRR DdRr Ddrr ddRR ddRr ddrr
Put dad’s allele’s over the top of the square, then put mom’s down the side. Then do the Punnett Square! dR dr dR dr DdRR DdRr Ddrr ddRR ddRr ddrr DR Dr dR dr

10 DdRR DdRr Ddrr ddRr ddRR ddrr
Now count the genotypes and figure out the phenotypes! dR dr dR dr DdRR DdRr Ddrr ddRr ddRR ddrr DR Dr dR dr

11 __DdRR, ___DdRr, __Ddrr, __ ddRR, ___ddRr, __ddrr ___Dark rough, ___Dark smooth, ___Light rough, ___Light smooth Click to see answers! 2 DdRR, 4 DdRr, 2 Ddrr, 2 ddRR, 4 ddRr, 2 ddrr 6 Dark rough, 2 Dark smooth, 6 Light rough, 2 Light smooth

12 In pea plants, the round seed allele is dominant over the wrinkled seed allele, and the yellow seed allele is dominant over the green seed allele. The genes for seed texture and those for seed color are on different chromosomes. A plant heterozygous for seed texture and seed color is crossed with a plant that is wrinkled and heterozygous for seed color. *R = round, r = wrinkled, Y=yellow, y = green a. Construct a Punnett square for this cross. See next slide…

13 In humans, there is a disease called Phenylketonuria (PKU)which is caused by a recessive allele. People with this allele have a defective enzyme and cannot break down the amino acid phenylalanine. This disease can result in mental retardation or death. Let “E” represent the normal enzyme. Also in humans in a condition called galactose intolerance or galactosemia, which is also caused by a recessive allele. Let “G” represent the normal allele for galactose digestion. In both diseases, normal dominates over recessive. If two adults were heterozygous for both traits (EeGg), what are the chances of having a child that is completely normal? Has justPKU? Has just galactosemia? Has both diseases? See next page!

14

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