Probability Heredity and Punnett Squares Coin Toss I
Probability, Heredity and Punnett Squares
Coin Toss • I call “Heads” • What are my chances that I win?
Probability • A number that describes how likely it is that an event will occur • Example: My coin toss ▫ Probability that a tossed coin lands with heads up is 1 in 2 �½ or 50%
Independence of Events • When you toss a coin more than once, the results of one toss do not affect the results of the next toss ▫ Each event occurs independently ▫ The results of previous tosses do NOT affect the result of the next toss
Probability and Genetics • Mendel was the first scientist to recognize that the principles of probability can be used to predict the results of genetic crosses ▫ Cross TALL (Tt) and SHORT (tt) pea plant � 2 out of 4 were TALL � 2 out of 4 were SHORT ▫ Cross TALL (Tt) and TALL (Tt) � 3 out of 4 were TALL � 1 out of 4 were SHORT
Punnett Squares • A chart that shows all the possible combination of alleles that can result from a genetic cross ▫ To determine the probability of a particular outcome
How to make a Punnett Square 1. Draw a box and divide it into four squares 2. Write the male parent’s alleles along the top and the female parent’s alleles along the left side 3. Copy the Female alleles into the boxes and copy the Male alleles into the boxes
Let’s try one together…. • Create a Punnett square to show the cross between a Black guinea pig (BB) and a white guinea pig (bb) b b Probability B Bb Bb • 4 out of 4 are Bb • 100% of the Guinea pigs will be Black B Bb Bb
Practice on your own…. 1. Create a Punnett square to show the cross between a Purple flower (Pp) and Purple flower (Pp) 1. Create a Punnett square to show the cross between yellow seed (Yy) and green seed (yy)
Phenotype vs. Genotype • Phenotype: physical appearance • Genotype: genes or allele combination • Example: G (green pea pod) g (yellow pea pod) Genotype Phenotype GG Green pea pod Gg Green pea pod gg Yellow pea pod
Homozygous and Heterozygous • Homozygous: has two identical alleles for that trait • Heterozygous: has two different alleles for that trait (sometimes called hybrid) Genotype Phenotype GG Green pea pod Homozygous dominant Gg Green pea pod Heterozygous gg Yellow pea pod Homozygous recessive
• Codominance: alleles are neither dominant nor recessive. As a result, both alleles are expressed in the offspring
• Incomplete Dominance – one allele is not completely dominant over the other. Results in a third phenotype
Sex-linked traits • 23 rd pair of chromosomes are the sex chromosomes ▫ XX – Female ▫ XY – Male • Sex-linked genes ▫ Ex. Red- green colorblindness, hemophilia, muscular dystrophy, Fragile X • X and Y chromosomes are different and most of the genes on the X chromosome are not on the Y chromosome. ▫ In males, there is usually not matching allele on their Y chromosome. ▫ Any allele on their X chromosome (even a recessive) will be seen in that male.
Multiple Alleles • When more than one allele determines a trait ▫ ex. Hair and skin color ▫ The more active alleles present, the more color pigment
Multifactorial • “Many factors” • Both genetic and environmental • Example: Height, neural tube defects (spina bifida)
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