Download 11-2 Probability & Punnett Squares

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Pharmacogenomics wikipedia , lookup

Genetic engineering wikipedia , lookup

Hybrid (biology) wikipedia , lookup

Quantitative trait locus wikipedia , lookup

Population genetics wikipedia , lookup

Inbreeding wikipedia , lookup

History of genetic engineering wikipedia , lookup

Genetic drift wikipedia , lookup

Microevolution wikipedia , lookup

Hardy–Weinberg principle wikipedia , lookup

Dominance (genetics) wikipedia , lookup

Transcript
Segregation of gametes
Genes are on chromosomes
Alleles – version/code for the gene
Probability & Punnett Squares
VOCABULARY:
•Probability
•Punnett Square
•Homozygous
•Heterozygous
•Phenotype
•Genotype
KEY CONCEPTS:
•How do geneticists use the
principles of probability?
A little background info…
• Every time Mendel performed a cross with
his pea plants, he carefully counted the
offspring
• Out of the over 20,000 plants he counted he
noticed there was a pattern
– Whenever he crossed 2 plants that were hybrid
for stem height (Tt), about ¾ of the resulting
plants were Tall and ¼ were short (3:1 ratio)
– He realized that the principles of probability
could be used to explain his results!
Probability
• Definition: the likelihood that a particular event
will occur
– Ex: flip a coin: ½ or 50% chance it will come up heads
• If you flip a coin 3 times in a row, what is the
probability it will come up heads 3 times in a row?
– Each event is an independent therefore it is:
½ x ½ x ½ = 1/8
– Past outcomes do not influence future outcomes
• The principles of probability can be used to
predict the outcomes of genetic crosses
Punnett Squares
• The gene combinations that
MIGHT result from a genetic cross
can be determined by drawing a
Punnett Square
• The parents go on the outside of the
square along the side and top
• The possible outcomes of the cross
are on the inside of the square
• The letters in the Punnett Square
represent alleles
Alleles in a Punnett Square
• “T” represents the Dominant allele: TALL
• “t” represents the recessive allele: short
– Organisms with 2 identical alleles (TT or tt) for a
trait are said to be HOMOZYGOUS
• Mendel called these: true-breeding
– Organisms with 2 different alleles (Tt) for a
particular trait are said to be HETEROZYGOUS
• Mendel called these hybrids
Punnett Squares
• A capital letter
represents the
dominant allele for
tall.
• A lowercase letter
represents the
recessive allele for
short.
• In this example,
• T = tall
• t = short
MORE VOCABULARY FUN!
• Phenotype: the physical characteristics of the
organism (what the organism looks like)
– Ex: Tall; short
• Genotype: the actual genetic makeup of the
organism (the 2 alleles the organism
inherited)
– Ex: TT; Tt: tt
Punnett Squares
• The plants have
different genotypes
(TT and Tt), but
they have the same
phenotype (tall).
TT
Homozygous
Tt
Heterozygous
Probabilities Predict Averages
• Probabilities predict the outcomes of a
LARGE number of events
• Probabilities cannot predict precise
outcomes of an event
– Ex: flip a coin twice you may get 100% heads
– You need to flip the coin many, many times to
get close to 50%
Probability and
Segregation
• Probability and Segregation
• One fourth (1/4) of the F2
plants have two alleles for
tallness (TT).
• 2/4 or 1/2 have one allele
for tall (T), and one for
short (t).
• One fourth (1/4) of the F2
have two alleles for short
(tt).
• Because the allele for tallness (T) is
dominant over the allele for shortness (t),
3/4 of the F2 plants should be tall.
• The ratio of tall plants (TT or Tt) to short (tt)
plants is 3:1.
• The predicted ratio showed up in Mendel’s
experiments indicating that segregation did
occur.
What is the expected ratio for this cross? Tt x tt
t
t
T
Tt
Tt
t
tt
tt
Punnett Square Rules
1. Choose a letter to represent the dominant allele
and capitalize it (choose a letter that is easy to
distinguish between upper-case and lower-case).
2. Use the same letter but use lower case to represent
the recessive allele.
3. Put the male on the left of the square and the
female on the top.
4. Write "genotype" and "phenotype" below the
square.
5. Use "x" to indicate a cross.
6. Write the dominant allele first if you are writing
out a hybrid.
Question 1
Probability can be used to predict:
A. average outcome of many events.
B. precise outcome of any event.
C. how many offspring a cross will produce.
D. which organisms will mate with each other.
Question 2
Compared to 4 flips of a coin, 400 flips of the coin is
A. less likely to produce about 50% heads and 50% tails.
B. guaranteed to produce exactly 50% heads and 50% tails.
C. more likely to produce about 50% heads and 50% tails.
D. equally likely to produce about 50% heads and 50% tails.
Question 3
Organisms that have two different alleles for a
particular trait are said to be
A. hybrid.
B. heterozygous.
C. homozygous.
D. recessive.
Question 4
The Punnett square allows you to predict
A. only the phenotypes of the offspring from a cross.
B. only the genotypes of the offspring from a cross.
C. both the genotypes and the phenotypes from a cross.
D. neither the genotypes nor the phenotypes from a cross.
Question 5
Two F1 plants that are homozygous for shortness
are crossed. What percentage of the offspring
will be tall?
A. 100%
B. 50%
C. 0%
D. 25%