Problem:
Fruit colour of wild Solanum nigrum is controlled by two alleles of a gene (A
and a). The frequency of A, p=0.8 and a, q=0.2. In a neighbouring field a
tetraploid genotype of S. nigrum was found. After critical examination five
distinct genotypes were found; which are AAAA, AAAa, AAaa, Aaaa and aaaa.
Following Hardy Weinberg principle and assuming the same allele frequency as
that of diploid population, the numbers of phenotypes calculated within a
population of 1000 plants are close to one of the following: AAAA : AAAa : AAaa
: Aaaa : aaaa
1.
409 : 409 : 154 : 26 : 2
2.
420 : 420 : 140 : 18 : 2
3.
409 : 409 : 144 : 36 : 2
4.
409 : 420 : 144 : 25 : 2 (CSIR
June 2016)
Solution:
Frequency
of allele A = 0.8 and a = 0.2
|
|
AA
|
Aa
|
Aa
|
aa
|
|
AA
|
AAAA
|
AAAa
|
AAAa
|
AAaa
|
|
Aa
|
AAAa
|
AAaa
|
AAaa
|
Aaaa
|
|
Aa
|
AAAa
|
AAaa
|
AAaa
|
Aaaa
|
|
aa
|
AAaa
|
Aaaa
|
Aaaa
|
aaaa
|
From
above chart phenotypic ratio is,
AAAA
: AAAa : AAaa : Aaaa : aaaa = 1 : 4 : 6 : 4 : 1
From
Hardy-Weinberg principle:
p4
: 4p3q : 6p2q2 : 4pq3 :q4
for
AAAA= p4 x 1000 = (0.8)4 x 1000
=
409.6 »
409
for
AAAa = 4p3q x 1000 = 4x(0.8)3x0.2x1000
=
409.6 » 409
for
AAaa = 6p2q2 x 1000 = 6x(0.8)2x(0.2)2
x1000
=
153.6 » 154
for
Aaaa = 4pq3 x 1000 = 4x0.8x(0.2)3 x1000
=
25.6 » 26
for
aaaa = q4 x 1000 = (0.2)4 x1000
=
1.6 »
2
Number
of phenotypes are
AAAA : AAAa : AAaa : Aaaa : aaaa = 409 : 409 : 154 : 26 : 2
Option
1 is correct
