Linkage Disequilibrium

2021-01-20 本文已影响0人抓二百只小乌龟

Reference:https://www.ndsu.edu/pubweb/~mcclean/plsc731/Linkage%20Disequilibrium%20-%20Association%20Mapping%20in%20Plants-lecture-overheads.pdf

Linkage disequilibrium (LD)

Measures the degree to which alleles at two loci are associated
- The non-random associations between alleles at two loci
  - Based on expectations relative to allele frequencies at
    
    two loci

Step1: Haplotype frequencies for two loci with two alleles

<img src="C:\Users\pro\AppData\Roaming\Typora\typora-user-images\image-20210118193845455.png" alt="image-20210118193845455" style="zoom:50%;" />

The frequency of each allele at each locus can be calculated
- Using traditional population genetic nomenclature
  - p and q for Allele frequencies at loci A and B.

Step2:allele frequencies based on haplotype frequencies:

<img src="C:\Users\pro\AppData\Roaming\Typora\typora-user-images\image-20210118194040407.png" alt="image-20210118194040407" style="zoom:50%;" />

To measure linkage disequilibrium (LD)

Compare the observed and expected frequency of one haplotype
The difference between these two values is considered the

deviation or D

Relationships among haplotype and allelic frequencies relative to the deviation

<img src="C:\Users\pro\AppData\Roaming\Typora\typora-user-images\image-20210118194320889.png" alt="image-20210118194320889" style="zoom:50%;" />

Step3: Standard measure of LD

$$

D = x_{11} – p_{1}q_{1}

$$

OR

$$

D = (x_{11})(x_{22}) – (x_{12})(x_{21})

$$

If two loci are in linkage equilibrium, then

D = 0
If the two loci are in linkage disequilibrium, then

D ≠ 0

From the definition of D we can determine

The relationship of haplotype frequencies (Table 1)
D and allelic frequencies (Table 2).

D depends on allele frequencies

Value can range from -0.25 to 0.25

Researchers suggested the value should be normalized
- Based on the theoretical maximum and minimum relative to the value of D
When D ≥ 0 , $D'=\frac{D}{D_{max}}$
When D<0, $D'=\frac{D}{D_{min}}$

Another LD measure(correlation)

Correlation between a pair of loci is calculated using the following formula(r, $r^{2}$ )

$r^{2}=\frac{D^{2}}{p_{1}p_{2}q_{1}q_{2}}$

Ranges from

$r^{2}$ = 0
Loci are in complete linkage equilibrium,different information
$r^{2}$ = 1
Loci are in complete linkage disequilibrium, same information

Calculation of $r_{13}$

<img src="C:\Users\pro\AppData\Roaming\Typora\typora-user-images\image-20210118195322000.png" alt="image-20210118195322000" style="zoom:80%;" />

Haplotype frequency

| haplotype | frequency |

| :----: | :----: |

| AC | $x_{11}$ =0.6 |

| Ac | $x_{12}$ =0.4 |

|aC| $x_{21}$ =0|

|ac| $x_{22}$ =0|

Allele frequency

| haplotype | frequency |

| :--: | :--: |

| A | $p_{1}$ =1|

| a | $p_{2}$ =0 |

|C| $q_{1}$ =0.6|

|c| $q_{2}$ =0|

$D=x_{11}-p_{1}q_{1}=0$

so the correlation $r_{13}^{2}$ =0, loci are in complete linkage equilibrium

Another example： calculating haplotype frequency using allele frequency

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