What is the Difference Between Epistasis and Pleiotropy?
🆚 Go to Comparative Table 🆚Epistasis and pleiotropy are two distinct phenomena in genetics. The difference between them lies in how genes interact and influence phenotypic traits:
Epistasis:
- Epistasis occurs when more than one gene determines a single phenotype.
- In epistasis, one gene affects the expression of another gene located at a different location.
- Gene interactions take place in epistasis.
- For example, many genes may interact with one another throughout embryological development in order to manifest a single trait.
Pleiotropy:
- Pleiotropy occurs when a single gene determines multiple phenotypes.
- In pleiotropy, some genes affect more than one trait.
- Genes do not interact in pleiotropy.
- For example, a mutation in a gene that causes phenylketonuria causes a variety of phenotypic consequences, including mental impairment, skin coloring, and hair loss.
In summary, the key difference between epistasis and pleiotropy is that epistasis involves the interaction between two or more genes affecting a single trait, while pleiotropy involves a single gene affecting multiple traits.
On this pageWhat is the Difference Between Epistasis and Pleiotropy? Comparative Table: Epistasis vs Pleiotropy
Comparative Table: Epistasis vs Pleiotropy
Epistasis and pleiotropy are two phenomena in genetics that involve the interaction of multiple genes in determining phenotypes. Here is a table illustrating the differences between them:
Epistasis | Pleiotropy |
---|---|
The expression of one gene is controlled by the expression of another gene. | One gene determines multiple phenotypes. |
The interaction between two genes at different loci influences a single trait. | A single gene contributes to several traits. |
Genes interact at separate loci. | A gene pair at a single locus influences many phenotypic traits. |
An example of epistasis is the interaction of genes during embryological development. | An example of pleiotropy is phenylketonuria, where a mutation in a single gene causes various phenotypic consequences, such as mental impairment, skin coloring, and hair loss. |
Both epistasis and pleiotropy are variations of Mendelian inheritance and show that some genes do not follow traditional inheritance patterns.
Read more:
- Polygenic Inheritance vs Pleiotropy
- Complementation vs Epistasis
- Dominance vs Epistasis
- Dominant vs Recessive Epistasis
- Epistatic Gene vs Hypostatic Gene
- Genetics vs Epigenetics
- Apomorphy vs Plesiomorphy
- Codominance vs Multiple Alleles
- Synapomorphy vs Symplesiomorphy
- Plasmid vs Episome
- Multifactorial vs Polygenic Traits
- Multiple Alleles vs Polygenic Traits
- Genetic Disorders vs Polygenic Diseases
- Monogenic vs Polygenic Inheritance
- Homoplasy vs Homology
- Epitope vs Paratope
- Genetics vs Heredity
- Genotype vs Phenotype
- Penetrance vs Expressivity