What are the odds of landing on 7 again?
Not as high as inheriting an allele from a parent. Probability plays a big role in determining the chance of inheriting an allele from a parent. It is similar to tossing a coin. What's the chance of the coin landing on heads?
Assume you are a plant breeder trying to develop a new variety of plant that is more useful to humans. You plan to cross-pollinate an insect-resistant plant with a plant that grows rapidly. Your goal is to produce a variety of plant that is both insect resistant and fast growing. What percentage of the offspring would you expect to have both characteristics? Mendel’s laws can be used to find out. However, to understand how Mendel’s laws can be used in this way, you first need to know about probability.
is the likelihood, or chance, that a certain event will occur. The easiest way to understand probability is with coin tosses (see
). When you toss a coin, the chance of a head turning up is 50 percent. This is because a coin has only two sides, so there is an equal chance of a head or tail turning up on any given toss.
Tossing a Coin. Competitions often begin with the toss of a coin. Why is this a fair way to decide who goes first? If you choose heads, what is the chance that the toss will go your way?
If you toss a coin twice, you might expect to get one head and one tail. But each time you toss the coin, the chance of a head is still 50 percent. Therefore, it’s quite likely that you will get two or even several heads (or tails) in a row. What if you tossed a coin ten times? You would probably get more or less than the expected five heads. For example, you might get seven heads (70 percent) and three tails (30 percent). The more times you toss the coin, however, the closer you will get to 50 percent heads. For example, if you tossed a coin 1000 times, you might get 510 heads and 490 tails.
Probability and Inheritance
The same rules of probability in coin tossing apply to the main events that determine the
of offspring. These events are the formation of gametes during
and the union of
Probability and Gamete Formation
How is gamete formation like tossing a coin? Consider Mendel’s purple-flowered pea plants again. Assume that a plant is heterozygous for the flower-color allele, so it has the genotype
). During meiosis, homologous chromosomes, and the alleles they carry, segregate and go to different gametes. Therefore, when the
pea plant forms gametes, the
alleles segregate and go to different gametes. As a result, half the gametes produced by the
parent will have the
allele and half will have the
allele. Based on the rules of probability, any given gamete of this parent has a 50 percent chance of having the
allele and a 50 percent chance of having the
Formation of Gametes. Paired alleles always separate and go to different gametes during meiosis.
Which of these gametes joins in fertilization with the gamete of another parent plant? This is a matter of chance, like tossing a coin. Thus, we can assume that either type of gamete—one with the
allele or one with the
allele—has an equal chance of uniting with any of the gametes produced by the other parent. Now assume that the other parent is also
. If gametes of two
parents unite, what is the chance of the offspring having one of each allele like the parents (
)? What is the chance of them having a different combination of alleles than the parents (either
)? To answer these questions, geneticists use a simple tool called a Punnett square, which is the focus of the next concept.
Probability is the chance that a certain event will occur. For example, the probability of a head turning up on any given coin toss is 50 percent.
Probability can be used to predict the chance of gametes and offspring having certain alleles.
Use this resource to answer the questions that follow.
Define probability as a sentence.
Define probability as a fraction.
What is the probability of cutting a deck of playing cards and getting an ace?
How can you determine the probability of two independent events that occur together?
What is the probability that two heterozygous individuals will have offspring with attached earlobes?
1. Define probability. Apply the term to a coin toss.
2. How is gamete formation like tossing a coin?