Malecot's method of coancestry

Indirect measure of genetic similarity

Malecot's coancestry coefficient, f {\displaystyle f} , refers to an indirect measure of genetic similarity of two individuals which was initially devised by the French mathematician Gustave Malécot.

f {\displaystyle f} is defined as the probability that any two alleles, sampled at random (one from each individual), are identical copies of an ancestral allele. In species with well-known lineages (such as domesticated crops), f {\displaystyle f} can be calculated by examining detailed pedigree records. Modernly, f {\displaystyle f} can be estimated using genetic marker data.

Evolution of inbreeding coefficient in finite size populations

In a finite size population, after some generations, all individuals will have a common ancestor : f 1 {\displaystyle f\rightarrow 1} . Consider a non-sexual population of fixed size N {\displaystyle N} , and call f i {\displaystyle f_{i}} the inbreeding coefficient of generation i {\displaystyle i} . Here, f {\displaystyle f} means the probability that two individuals picked at random will have a common ancestor. At each generation, each individual produces a large number k 1 {\displaystyle k\gg 1} of descendants, from the pool of which N {\displaystyle N} individual will be chosen at random to form the new generation.

At generation n {\displaystyle n} , the probability that two individuals have a common ancestor is "they have a common parent" OR "they descend from two distinct individuals which have a common ancestor" :

f n = k 1 k N + k ( N 1 ) k N f n 1 {\displaystyle f_{n}={\frac {k-1}{kN}}+{\frac {k(N-1)}{kN}}f_{n-1}}

What is the source of the above formula? Is it in a later paper than the 1948 Reference.

1 N + ( 1 1 N ) f n 1 . {\displaystyle \approx {\frac {1}{N}}+(1-{\frac {1}{N}})f_{n-1}.}

This is a recurrence relation easily solved. Considering the worst case where at generation zero, no two individuals have a common ancestor,

f 0 = 0 {\displaystyle f_{0}=0} , we get
f n = 1 ( 1 1 N ) n . {\displaystyle f_{n}=1-(1-{\frac {1}{N}})^{n}.}

The scale of the fixation time (average number of generation it takes to homogenize the population) is therefore

n ¯ = 1 / log ( 1 1 / N ) N . {\displaystyle {\bar {n}}=-1/\log(1-1/N)\approx N.}

This computation trivially extends to the inbreeding coefficients of alleles in a sexual population by changing N {\displaystyle N} to 2 N {\displaystyle 2N} (the number of gametes).

See also

  • Coefficient of relationship
  • Consanguinity
  • Genetic distance

References

Bibliography

  • Malécot, G. (1948). Les mathématiques de l'hérédité. Paris: Masson & Cie.