Course Content
The Nature of Genes
0/5
One gene one polypeptide hypothesis
One gene one enzyme hypothesis
Enzymatic explanation of genetic ratios
Fine Structure of Genes
Gene
Manipulation of DNA
0/9
Locating DNA sequences on chromosomes
Isolation of Specific DNA sequences
Restriction Enzymes
Formation of Recombinant DNA
Restriction Fragment Length Polymorphism
DNA finger printing
Vectors
Molecular cloning
LOD Score
Chromosome and genetic control mechanism in eukaryotes
0/3
Different models of structure of chromosome
Organization of chromatin fibers
Special chromosomes
Developmental genetics
0/5
Variegation in biological tissue
The genetics of Cancer
Immunogenetics
Theories for planning the formation of antibody
Amplified fragment length polymorphism (AFLP)
Quantitative genetics
0/6
Johansson’s Pureline Theory
Polygenes in discontinuous traits
Polygenic inheritance using character of carolia length of Nicotiana longiflora
Main features of Polygenic inheritance using character of carolia length of Nicotiana longiflora
Heritability
Importance of heritability
Genotype-by-environment interaction
0/2
Environment and Gene interaction, Basis of Genetic environment interaction
Types of Genetic Environment Relationship
Population genetics
0/13
Hardy-Weinberg law
Random union of gametes
Random mating among genotypes
Natural forces affecting population equilibrium
Migration
Types of selection
Heterosis
Causes of superiority
Theories of Heterosis
Inbreeding
Speciation
Reproductive isolation mechanism
Origin of reproductive isolation
Learn Genetics of Population with Rahul

Migration

  • It refers to the movement of some individuals of a population into another population and their intermating with the individuals of the latter.
  • Migration may lead to change in gene frequency depending upon :

 

I. Migration ratio = Proportion of migrant individual / total number after migration of individual

 

ii. The difference between gene frequencies of migrant individual and that of population into which migration has occurred.

 

 

Mutation

  • A sudden heritable change ( not produced by segregation or recombination) in the characteristics of an organism is called mutation.
  • It may be non recurrent or recurrent.

 

i. Non-recurrent mutation:

  • It takes place only once. i.e. the same mutation willn’t occur in a future generation of a population.
  • So, if there is a non-recurrent mutation in a gene, the mutant allele will be lost in one of the subsequent generation.

 

 

ii. Recurrent mutation:

  • When a given mutation occurs regularly although at a very low frequency, it is called recurrent mutation.

 

 

iii. Selection:

  • It is defined as differential rates of reproduction of different genotypes in a population.
  • When differential reproduction is the consequences of natural factors, it is called natural selection and when it is brought about by human efforts, it is termed as artificial selection.
  • Selection may operate on gametes or the haploid (n) phase (gametic selection) or it may acts on zygotes or the diploid ( 2n) phase ( Zygotic selection).

 

iv. Random drift:

  • Random fluctuation in gene frequencies of a population due to chance or sampling error is called random genetic drift.
  • Change in gene frequency due to drift doesn’t occur in same direction in all generation.
  • Random drift is greater in smaller population than in larger one.
  • Random drift is the consequence of sampling error.
  • The rate at which genes become fixed in a population is estimated by formula 1/2 N and is called ‘rate of fixation’.
  • Under certain circumstances, random drift may produce notable changes in gene frequencies ever in the face of selection or migration from other population.
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