3. Chromosome Mapping in Drosophila flies
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About This Presentation
How to construct a chromosome map in a model organism
Slide Content
Lecture 3
Chromosome Map-1
(Linkage map, Genetic map or Crossing-over map)
MS Semester 1 2022
Genetics & Mol. Biol.
Course: ZoolM131
Prepared and presented by
Prof. Dr. M. S. Islam
Department of Zoology, RU
25 September 2023
Chromosome Map-1
(Linkage map, Genetic map or Crossing-over map)
MS Semester 1 2022
Genetics & Mol. Biol.
Course: ZoolM131
Prepared and presented by
Prof. Dr. M. S. Islam
Department of Zoology, RU
25 September 2023
Chromosome Map-1
Contents
Definition
How is the chromosome map constructed ?
Principles underlying chromosome mapping
Construction of a chromosome map in Drosophila
Determination of the sequence of genes
Calculation of the map distance
Layout of the chromosome map
Calculation of the co-efficient of coincidence (k) and
interference (I)
References
Contents
Definition
How is the chromosome map constructed ?
Principles underlying chromosome mapping
Construction of a chromosome map in Drosophila
Determination of the sequence of genes
Calculation of the map distance
Layout of the chromosome map
Calculation of the co-efficient of coincidence (k) and
interference (I)
References
Definition
Chromosome map is a line on which the position of genes and their
sequences
are shown by points, separated by the distances proportional to the
percentage of crossing-over.
The first chromosome map in Drosophila melanogaster was prepared by A.
H.
Sturtevant in 1911.
Chromosome mapping in this fly was further developed by T. H. Morgan,
C. B.
Bridges and their colleagues in the USA.
Chromosome map is a line on which the position of genes and their
sequences
are shown by points, separated by the distances proportional to the
percentage of crossing-over.
The first chromosome map in Drosophila melanogaster was prepared by A.
H.
Sturtevant in 1911.
Chromosome mapping in this fly was further developed by T. H. Morgan,
C. B.
Bridges and their colleagues in the USA.
Chromosome maps of Drosophila melanogaster
Chromosome maps of the major genes in D.
melanogaster
Chromosome maps of the major genes in D.
melanogaster
Chromosome maps of some genes on X and Y
chromosomes in man
Chromosome maps of some of the genes associated with sex-linked disorders in
man
chromosomes in man
Chromosome maps of some of the genes associated with sex-linked disorders in
man
1.A chromosome map is constructed entirely from the results of breeding
experiment.
2.The most commonly used method is the trihybrid or three-point test
cross.
P: AABBCC × aabbcc
F
1: AaBbCc
Test cross: AaBbCc × aabbcc
F
2: ABC/abc
ABc/abc
AbC/abc
Abc/abc
aBC/abc
aBc/abc
abC/abc
abc/abc
How is the chromosome map constructed?
experiment.
2.The most commonly used method is the trihybrid or three-point test
cross.
P: AABBCC × aabbcc
F
1: AaBbCc
Test cross: AaBbCc × aabbcc
F
2: ABC/abc
ABc/abc
AbC/abc
Abc/abc
aBC/abc
aBc/abc
abC/abc
abc/abc
How is the chromosome map constructed?
Principles underlying the construction of
chromosome map
There are four basic assumptions that are made during the
construction of
a chromosome map in D. melanogaster:
1.The genes are arranged in a linear orderon the chromosomes;
2.The percentage of crossing-over between the genes is an index
to their distance;
3.Parentals or non cross-over types are the highest number of
progenies in F
2generation; and
4.The double cross-overs represent the lowest number of progenies
in the F
2.
chromosome map
There are four basic assumptions that are made during the
construction of
a chromosome map in D. melanogaster:
1.The genes are arranged in a linear orderon the chromosomes;
2.The percentage of crossing-over between the genes is an index
to their distance;
3.Parentals or non cross-over types are the highest number of
progenies in F
2generation; and
4.The double cross-overs represent the lowest number of progenies
in the F
2.
Construction of a chromosome map
in D. melanogaster
A Drosophilamelanogaster male having three genes for dominant characters
(ABC)
was crossed with a female having three recessive characters (abc). The F
1
heterozygotes were test-crossed and the following F
2progenies were recorded:
1.aBc= 2
2.abc= 904
3.abC= 34
4.aBC= 76
5.ABC = 860
6.AbC= 2
7.Abc= 90
8.ABc= 32
Determine the sequence of the geneson the chromosome; and construct a
chromosome mapfrom the breeding experiment results (F
2data) shown above.
in D. melanogaster
A Drosophilamelanogaster male having three genes for dominant characters
(ABC)
was crossed with a female having three recessive characters (abc). The F
1
heterozygotes were test-crossed and the following F
2progenies were recorded:
1.aBc= 2
2.abc= 904
3.abC= 34
4.aBC= 76
5.ABC = 860
6.AbC= 2
7.Abc= 90
8.ABc= 32
Determine the sequence of the geneson the chromosome; and construct a
chromosome mapfrom the breeding experiment results (F
2data) shown above.
Construction of a chromosome map
in D. melanogaster
According to the given problem, the F
2progenies may be arranged as to
their
phenotypes as follows:
Phenotypes No. of Progenies in F
2 % F
2Progenies
Parentals or non-
cross-overs
ABC + abc
860 + 904=1764
88.20
Crossing-over
region I (COR-I)
Abc+ aBC
90 + 76= 166
8.30
Crossing-over
region II (COR-II)
ABc+ abC
32 + 34= 66
3.30
Double cross-
overs (DCO)
AbC+ aBc
2 + 2 =4
0.20
Total 2000 100.00
in D. melanogaster
According to the given problem, the F
2progenies may be arranged as to
their
phenotypes as follows:
Phenotypes No. of Progenies in F
2 % F
2Progenies
Parentals or non-
cross-overs
ABC + abc
860 + 904=1764
88.20
Crossing-over
region I (COR-I)
Abc+ aBC
90 + 76= 166
8.30
Crossing-over
region II (COR-II)
ABc+ abC
32 + 34= 66
3.30
Double cross-
overs (DCO)
AbC+ aBc
2 + 2 =4
0.20
Total 2000 100.00
Determination of the sequence of genes
on the chromosome
The most common practice for determining the sequence of the three genes on the
chromosome is to assume one gene after another as follows:
Let us assume first that, A gene be located in the middle. If so, the double cross-
over progenies would have been: aBCand Abc, which are 76 and 90,
respectively in numbers among the F
2progenies. Since the numbers do not
correspond to the lowest numbers, obviously the assumption could not be
correct.
Let then, B gene be in the middle. In this situation, the double cross-over
progenies would have been: AbCand aBc, which are 2 and 2, respective. This
assumption might be correctbecause the numbers of progenies are the least
number in F
2.
Finally, let C gene be in the middle. If so, the double cross-over progenies would
have been ABcand abC, which are 32 and 34, respectively. Since these do not
conform to the lowest number of progenies among F
2, this assumption also
appears to be not correct.
So, the sequence of the genes on the chromosome is ABCor CBA, depending on
the actual position of the centromere of the chromosome.
on the chromosome
The most common practice for determining the sequence of the three genes on the
chromosome is to assume one gene after another as follows:
Let us assume first that, A gene be located in the middle. If so, the double cross-
over progenies would have been: aBCand Abc, which are 76 and 90,
respectively in numbers among the F
2progenies. Since the numbers do not
correspond to the lowest numbers, obviously the assumption could not be
correct.
Let then, B gene be in the middle. In this situation, the double cross-over
progenies would have been: AbCand aBc, which are 2 and 2, respective. This
assumption might be correctbecause the numbers of progenies are the least
number in F
2.
Finally, let C gene be in the middle. If so, the double cross-over progenies would
have been ABcand abC, which are 32 and 34, respectively. Since these do not
conform to the lowest number of progenies among F
2, this assumption also
appears to be not correct.
So, the sequence of the genes on the chromosome is ABCor CBA, depending on
the actual position of the centromere of the chromosome.
Calculation of map distance
According to the basic assumptions made during the construction of
chromosome map-
The actual distance between A and B genes= % crossing-over region I
(COR-I)
+ % double cross-overs(DCO) = 8.30 + 0.20= 8. 50 map units or 8.50
Centimorgans.
Again, the actual distance between B and C genes = % crossing-over
region II
(COR-I) + % double cross-overs(DCO) = 3.30 + 0.20= 3. 50 map units or
3.50 Centimorgans.
So, the total distance between A and C genes = 8.50 + 3.50= 12.0 map
units or 12.0 Centimorgans.
According to the basic assumptions made during the construction of
chromosome map-
The actual distance between A and B genes= % crossing-over region I
(COR-I)
+ % double cross-overs(DCO) = 8.30 + 0.20= 8. 50 map units or 8.50
Centimorgans.
Again, the actual distance between B and C genes = % crossing-over
region II
(COR-I) + % double cross-overs(DCO) = 3.30 + 0.20= 3. 50 map units or
3.50 Centimorgans.
So, the total distance between A and C genes = 8.50 + 3.50= 12.0 map
units or 12.0 Centimorgans.
Layout of the ABC genes on the chromosome
The chromosome map of three genes under consideration is shown
below:
A.........................8.5..................B......3.5........C
a b c
→→ 12.0 ← ←
ThedistancebetweenAandBgenesis8.5mapunits,andthatbetween
B
andCgenesis3.5mapunits.Therefore,thetotaldistancebetweenA
and
Cgenesis12.0mapunits.
The chromosome map of three genes under consideration is shown
below:
A.........................8.5..................B......3.5........C
a b c
→→ 12.0 ← ←
ThedistancebetweenAandBgenesis8.5mapunits,andthatbetween
B
andCgenesis3.5mapunits.Therefore,thetotaldistancebetweenA
and
Cgenesis12.0mapunits.
Calculation of interference (I) and
coefficient of coincidence (k)
Interference (I)
The tendency of a crossing-over is to prevent the occurrence of another
crossing-over near its vicinity. This phenomenon is known as interference
(I),
which could be shown by the equation, I = 1-k, where k is the coefficient of
coincidence.
Coefficient of coincidence (k)
The strength of interference is measured by the coefficient of coincidence
(k),
which is given by the formula:
k = Actual frequency of the double cross-overs(DCO) ÷Calculated
frequency of DCO
In the given problem, we have,
Actual frequency of the double cross-overs(DCO) = 4 ÷2000 = 0.002; and
Calculated frequency of DCO = 166 + 4 ÷2000 ×66 + 4 ÷2000
= 0.085 ×0.035
= 0.003
So, k = 0.002 ÷0.003 = 0.67 or 67%; and I = 1-0.67 = 0.33 or 33%.
That means, there has been an interference of 33% during the second
coefficient of coincidence (k)
Interference (I)
The tendency of a crossing-over is to prevent the occurrence of another
crossing-over near its vicinity. This phenomenon is known as interference
(I),
which could be shown by the equation, I = 1-k, where k is the coefficient of
coincidence.
Coefficient of coincidence (k)
The strength of interference is measured by the coefficient of coincidence
(k),
which is given by the formula:
k = Actual frequency of the double cross-overs(DCO) ÷Calculated
frequency of DCO
In the given problem, we have,
Actual frequency of the double cross-overs(DCO) = 4 ÷2000 = 0.002; and
Calculated frequency of DCO = 166 + 4 ÷2000 ×66 + 4 ÷2000
= 0.085 ×0.035
= 0.003
So, k = 0.002 ÷0.003 = 0.67 or 67%; and I = 1-0.67 = 0.33 or 33%.
That means, there has been an interference of 33% during the second
References
•AyalaFJ. & KigerJr. JA. 1980. Modern Genetics.
•Burns, GW. 1980. The Science of Genetics.
•Gardner et al. 1991. Principles of Genetics(8
th
edn).
•Islam, MS 2018. Selected Lectures on Genetics.
•Islam MS et al.2017. Genetics: The Science of Heredity and
Variation.
•Sinnottet al.1973. Principles of Genetics(5
th
edn).
•Stansfield, WD. 1991. Theory and Problems of Genetics(3
rd
edn).
•Strickberger, MW. 1976. Introduction to Genetics.
•Winchester, AM. 1966. Genetics.
•Wikipedia. 2023. www.wikipedia.com.
-***-
•AyalaFJ. & KigerJr. JA. 1980. Modern Genetics.
•Burns, GW. 1980. The Science of Genetics.
•Gardner et al. 1991. Principles of Genetics(8
th
edn).
•Islam, MS 2018. Selected Lectures on Genetics.
•Islam MS et al.2017. Genetics: The Science of Heredity and
Variation.
•Sinnottet al.1973. Principles of Genetics(5
th
edn).
•Stansfield, WD. 1991. Theory and Problems of Genetics(3
rd
edn).
•Strickberger, MW. 1976. Introduction to Genetics.
•Winchester, AM. 1966. Genetics.
•Wikipedia. 2023. www.wikipedia.com.
-***-
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