The Simulation Analysis on the population with a Sole Type of Mating between different Genotypes
The evolution laws of genotype frequency from generation to generation were researched on a Mendel population that was always forced a sole type of matings between different genotypes by simulation. When two original genotype frequency of homozygotes is not equal, the genotype frequency of homozygotes that its frequency was less than other at first would reduce and tends to zero, other genotype frequency of homozygotes would recrease and tends to 0.5, and the genotype frequency of heterozygotes would reduce and tends to 0.25 little by little with alternation of generations. When two original genotype frequency of homozygotes is equal, two genotype frequency of homozygotes would be always identical at every generation and tends to 0.2192 oscillatorily, and two genotype frequency of heterozygotes would be always identical at every generation and tends to 0.2808 oscillatorily. When original population was Hardy-Weinberg equilibrium population, change event of genotype frequency was slower and slower with variation of gene frequency from 0 or 1 to 0.5. When original population was not Hardy-Weinberg equilibrium population, change event of genotype frequency was slower and slower with increase of deviating Hardy-Weinberg equilibrium.
Population Genotype Frequency Simulation
Hongyan Zhang Hongli Zhang
with College of life science & technology,Heilongjiang Bayi Agricultural University,Daqing,163319,Ch with Math Department, Heilongjiang Bayi Agricultural University,Daqing 163319,China
国际会议
2011 China Control and Decision Conference(2011中国控制与决策会议 CCDC)
四川绵阳
英文
4096-4099
2011-05-23(万方平台首次上网日期,不代表论文的发表时间)