Everything about The Punnett Square totally explained
The
Punnett square is a diagram that's used to predict the outcome of a particular cross or breeding experiment. It is named after
Reginald C. Punnett, who devised the approach, and is used by
biologists to determine the
probability of an offspring having a particular
genotype. The Punnett square is a summary of every possible combination of one maternal allele with one paternal allele for each gene being studied in the cross.
Typical monohybrid cross
In this example, both organisms have the
genotype Bb. They can produce
gametes that contain either the
B or
b alleles. (It is conventional in
genetics to use capital letters to indicate
dominant alleles and lower-case letters to indicate
recessive alleles.) The probability of an individual offspring having the genotype
BB is 25%,
Bb is 50%, and
bb is 25%.
| |
Maternal |
| B |
b |
| Paternal |
B | BB |
Bb
|
| b | Bb |
bb
|
It is important to note that Punnett squares only give probabilities for
genotypes, not
phenotypes. The way in which the
B and
b alleles interact with each other to affect the appearance of the offspring depends on how the gene products (
proteins) interact (see
Mendelian inheritance).
For classical dominant/recessive genes, like that which determines whether a rat has black hair (
B) or white hair (
b), the dominant allele will mask the recessive one. Thus in the example above 75% of the offspring will be black (
BB or
Bb) while only 25% will be white (
bb). The ratio of the phenotypes is 3:1, typical for a
monohybrid cross.
Typical dihybrid cross
More complicated crosses can be made by looking at two or more genes. The Punnett square only works, however, if the genes are
independent of each other, which means that having a particular allele of gene X doesn't imply having a particular allele of gene Y.
The following example illustrates a
dihybrid cross between two heterozygous
pea plants.
R represents the dominant allele for shape (round), while
r represents the recessive allele (wrinkled).
Y represents the dominant allele for color (yellow), while
y represents the recessive allele (green). If each plant has the genotype
Rr Yy, and since the alleles for shape and color genes are independent, then they can produce four types of gametes with all possible combinations:
RY,
Ry,
rY and
ry.
| |
RY |
Ry |
rY |
ry |
| RY | RRYY |
RRYy |
RrYY |
RrYy
|
| Ry | RRYy |
RRyy |
RrYy |
Rryy
|
| rY | RrYY |
RrYy |
rrYY |
rrYy
|
| ry | RrYy |
Rryy |
rrYy |
rryy
|
Since dominant traits mask recessive traits, there are nine combinations that have the phenotype
round yellow, three that are
round green, three that are
wrinkled yellow and one that's
wrinkled green. The ratio 9:3:3:1 is typical for a dihybrid cross.
Situations where Punnett squares don't apply
The phenotypic ratios of 3:1 and 9:3:3:1 are theoretical predictions based on the assumptions of segregation and independent assortment of alleles (see
Mendelian inheritance). Deviations from the expected ratios can occur if any of the following conditions exists:
- the alleles in question are physically linked on the same chromosome
- one parent lacks a copy of the gene, for example human males have only one X chromosome, from their mother, so only the maternal alleles have an effect on the organism (see sex linkage)
- the survival rate of different genotypes isn't the same, for example one combination of alleles may be incompatible with life so that the affected offspring expires in utero
- alleles may show incomplete dominance or co-dominance (see dominance relationship)
- there are genetic interactions (epistasis) between alleles of different genes
- the trait is inherited on genetic material from only one parent, for example mitochondrial DNA is only inherited from the mother (see maternal effect)
- the alleles are imprinted
Further Information
Get more info on 'Punnett Square'.
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