Download - Chromosomal Basis of Inheritance
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Chromosomal Basis of Inheritance
Featuring fruit fly:Drosophila Melanogaster
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Basic Terms/Information about Drosophila
My diploid number is 2N = 8
Mutants are non wild-type
traits
Wild-type (+) refers to the most common phenotype in fruit flies.
It’s usually dominant (but not necessarily)
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Sex-Linkage or (X-linked)
XX XY
In fruit flies, (R) is the dominant wild-type gene for red eyes, and (r) is the recessive, mutant gene for white eyes. The gene is found on the “X” chromosome only. This is considered X-linked.
What would be the phenotype of this female fly?
R r
These are the X and Y chromosomes of a male fly. How is the Y chromosome different from the X?
Does the gene for eye color exist on the “Y” chromosome? Why or why not?
What would be the phenotype of this male fly?
r
The Y chromosome is shorter than the
X
No, because the gene for eye color
is found on the longer segment of
the X chromosome. This part is missing on
the YRed eye femaleWhite eye male
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Sex-Linkage or (X-linked)
• When genes are sex-linked, we include the X and Y as part of their genotype. For example, the allele for red eye is not “R” but is written as XR. How would you write the allele for white eye?
Xr
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Writing X-linked Genotypes
What is the possible genotype(s) for the eye color of this fly if it is a female?
What is the possible genotype for the eye color of this fly if it is male?
Answer the above questions again for this fly.
XRXR or XRXr
XRY
XrXr
XrY
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Sample Problems
Example 1: What is the F1 genotypic and phenotypic ratio of a female true-breeding wild-type fly for red eyes crossed with a white-eyed male?
XXR XR
Xr
Y
XRXr XRXr
XRY XRYGenotypic Ratio
XRXr:XRY
2:2 reduced to 1:1
Phenotypic Ratio
Red-eye female:Red-eye male
2:2 reduced to 1:1
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Sample Problems
Example 2: What would the genotypes and phenotypes be of the F2 generation?
XXR Xr
XR
Y
XRXR XRXr
XRY XrY
Genotypic Ratio
XRXR : XRXr : XRY : XrY
1 : 1 : 1 : 1Phenotypic Ratio
Red-eye female : Red-eye male : White-eyed male
2 : 1 : 1
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X-linked disorders
Definition: diseases or disorders whose genes are found on the X-chromosome, but not on the Y.
Ex: hemophelia (Xh), color blindness (Xb), muscular distrophy (Xm)
If the disorder is recessive, more males than females will tend to have the disorder.
Why?
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Take, for example, colorblindness (Xb)If you have a normal female, what is her possible
genotype(s)? _____, or _____
If you have a colorblind female, what is her genotype? ______
If you have a colorblind male, what is his genotype? ______
How many colorblind genes do males need to inherit to be colorblind? _____ Females? _____
Who does the male inherit the colorblind gene from? _____________________________________
XBXB XBXb
XbXb
XbY
1 2
His mother, who donates the X chromosome
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Other traits and alleles of Drosophila melanogaster
Wild Type Traits(+)
Mutant Traits
Gray body = G+ Black body = g
Normal wings = N+ Shriveled, vestigial wings = n
Body-color and wing-type are NOT located on the sex chromosome, so they are considered autosomal
Things to think about independently….How would you confirm or test that these mutant traits are recessive?
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Example 3In flies, grey bodies (G+) and normal-wing size (N+) are dominant to black bodies (g) and small wing size (n).
Predict a cross between G+gN+n and ggnn.
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Predicted Cross G+gN+n x ggnn
G+N G+n gN+ gn
gn
gn
gn
gn
25% G+gN+n 25% G+gnn 25% ggN+n 25% ggnn
Surprising Results!
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Actual Results
8.5%
8.5%
41.5%41.5%41.5%41.5%41.5%41.5%
41.5%41.5%
Why did this happen???
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Linked GenesThe genes for body color and wing size are linked, meaning they are found on the same chromosome.
They will most likely be inherited together and will not undergo Mendel’s Law of
. cross over
segregatessegregates the linked genes
Independent Assortmentunless
G+ g
nN+
G+ g
n N+
Homologous Chromosomes
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What are recombinants?
Recombinants are offspring that have different phenotypes from those of the parents.
Let’s look back at our original cross
X
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8.5%8.5%
41.5%41.5%41.5%41.5%41.5%41.5%
41.5%41.5%
X
A
BC
D
Which offspring (A-D) from this cross are the recombinants?
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How do we determine if two genes are linked or if two genes are
located on different chromosomes?
Answer
Calculate the recombination frequency! If the frequency is less than 50%, it is assumed that the two genes are on same chromosomes.
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206185
944944965 965
X
A
BC
D
Calculate the recombination frequency for this cross!
Total Flies: 965 + 206 + 185 + 944 = 2500 flies
Total number of recombinants: 206 + 185 = 391
Recombination Frequency = recombinants / total flies = 391/2500 = .156 = 16%
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Gene Mapping• Genes are mapped on
a chromosome based upon the recombination frequency.
• For ex. the distance between the genes for body color and wing type is therefore 16 “map-units” apart (16% frequency)
Black Body
Small wings
Grey Body
Normal wings
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Using recombination frequencies, create a linkage map for the following a - c:between genes b and a = 10.5%; between genes c and a = 48%; between genes c and b = 37.5%
48%
a c
10.5% 37.5%
b