Monohybrid cross And
monohybrid ratio:-
Def: A cross between two pure
(homozygous) parents having a single pair of contrasting characters is used or
studied is called as monohybrid cross, and ratio obtained from monohybrid cross
is called as monohybrid ratio. (Phenotypic ratio = 3:1 & Genotypic ratio = 1;2;1)
This
experiment involving 3 steps;
In first step (I)-
1.
Mendel selected pure tall pea plant as a female parent and pure
Dwarf pea plant as a male parent.
2.
He confirmed whether they are true breeding or not by selfing them
for three generations.
In step second (II)-
1.
Mendel performed artificial cross between female and male parent
which were Tall & Dwarf.
2.
Mendel expecting progeny obtained from parent will be intermediate
height or 50 % Tall & 50% dwarf but he surprised and found all were Tall in
generation (Tt).
generation (Tt).
3. He started
thinking, where the dwarfness has gone? Why and how it got eliminated ? He
thinked, Dwarfness eliminated forever or
reappear in 
generation!
generation!
In step (III)-
1. He performed - cross by selfing the progeny.
- cross by selfing the progeny.
2.
He got - phenotypic ratio 3:1 and - genotypic ratio 1:2:1.
- phenotypic ratio 3:1 and - genotypic ratio 1:2:1.
3.
He found that dwarfness reappeared in some plant in generation.
generation.
4.
He collected seeds from many hybrid plants when he self
pollinated the progeny.
hybrid plants when he self
pollinated the progeny.
5.
He collected 1064 seed in - generation. Out of these seeds, 787 seeds grew tall
and 277 remained dwarf in the ratio 3:1.
- generation. Out of these seeds, 787 seeds grew tall
and 277 remained dwarf in the ratio 3:1.
6.
He thought that Tall plant produced more number than Dwarf plant
due to Tall female parent would be dominant; so he performed reciprocal cross
in which he selected female parent is dwarf and male parent is Tall but he got
same result in - generation as the ratio 3:1 (3 Tall : 1 Dwarf).
- generation as the ratio 3:1 (3 Tall : 1 Dwarf).
7.
Mendel again performed monohybrid cross by considering seven pairs
of contrasting character one by one every cross in - generation he got same result i.e. 3:1 Contrasting
pairs of characters considered by Mendel.
- generation he got same result i.e. 3:1 Contrasting
pairs of characters considered by Mendel.
Diagram :-
|
Sr.No.
|
Cross
|
F1
|
F2
|
Ratio
|
|
1
|
Tall x
dwarf
|
Tall
|
787 Tall, 277 dwarf
|
2.84:1
|
|
2
|
yellow x
green seeds
|
Yellow seed
|
6022 yellow, 2001 green
|
3.01:1
|
|
3
|
Round x
wrinkled seeds
|
Round
seed
|
5474 Round, 1850 wrinkled
|
2.96:1
|
|
4
|
Green x
yellow pods
|
Green
pods
|
428 Green, 152 yellow
|
2.82:1
|
|
5
|
Inflated x constricted pods
|
Inflated
pods
|
882 Inflated, 299
constricted
|
2.95:1
|
|
6
|
Axial x terminal flower
|
Axial
flower
|
651 Axial, 207 terminal
|
3.14:1
|
|
7
|
Violet x
white flower
|
Violet
flower
|
705 Violet, 224 white
|
3.15:1
|
|
7a
|
Grey x
white seed coat
|
Grey
seed coat
|
705 Grey, 224 white
|
3.15:1
|
Conclusion:
1.
Mendel conclude that characters such as height of stem. colour of
flower, colour of seeds & so on inherited separately as a separate
particles or units.
2.
He called them factors & recently called as genes.
·
Each gene present in alternative from now a day called as alleles.
·
Dominant gene expressed in individual.
individual.
·
Inheritance of each character is controlled by pair of alleles
(one from male parent and another from female parent ) eg. hybrid Tt.
hybrid Tt.
·
Sexually reproducing individuals are diploid (2n).
·
Reappearance of recessive trait in progeny
concluded that in progeny factors do not mix with each other and they
separate during gametogenesis of hybrid.
progeny
concluded that in progeny factors do not mix with each other and they
separate during gametogenesis of hybrid.
·
In each gamete only one factor is received that is why gametes are
haploid (n).
·
Recessive character expresses only when both the recessive factor
contributed by male parent & female parent in their gamete & inherit in
their progeny to form a pair (tt).
Diagram:- 
Comments
Post a Comment