What is the Difference Between Additive and Nonadditive Genetic Patterns?
🆚 Go to Comparative Table 🆚Additive and nonadditive genetic patterns are the subject of quantitative genetics, which measures the influence of genes on phenotypes. The key difference between additive and nonadditive genetic patterns lies in the way alleles contribute to the phenotype:
- Additive genetic patterns: In this case, both alleles contribute to the phenotype in measurable amounts. The total effect on a trait stemming from one or more gene loci is considered additive variation. Each locus contributes to the trait in a measurable way, and the combined effect of multiple genes is linear or additive.
- Nonadditive genetic patterns: These patterns involve the interactive effects of different alleles and include genetic dominance (within locus interaction) and epistasis (across locus interaction). In this scenario, only one allele contributes to the phenotype through dominance or epistasis. Nonadditive genetic variation results from interactions between genes.
Both additive and nonadditive genetic patterns give rise to variations in populations and are important in understanding the genetic architecture underlying phenotypic variation.
Comparative Table: Additive vs Nonadditive Genetic Patterns
Additive and nonadditive genetic patterns are both involved in the study of quantitative behavioral genetics, which focuses on the relative importance of genetic variation on phenotypic variation. Here is a table comparing the two patterns:
Feature | Additive Genetic Patterns | Nonadditive Genetic Patterns |
---|---|---|
Definition | Both alleles contribute to the phenotype in measurable amounts. | Only one allele contributes to the phenotype through dominance or epistasis. |
Examples | 1. Certainly, I'll add more later. | 1. Texture of peas: smooth (S) or wrinkled (s), with the smooth allele being dominant. |
2. Human hair color. | ||
Summary | Additive genetic patterns arise due to the additive effects of both alleles in a gene in measurable amounts. | Nonadditive genetic patterns explain the effect of a single allele on the phenotype through dominance or epistasis. |
Both additive and nonadditive genetic patterns contribute to variation in organisms and populations.
- Additive vs Non Additive Gene Action
- Mendelian vs Non Mendelian Inheritance
- Gene Addition vs Gene Replacement
- Allelic vs Non allelic Gene
- Recombinant vs Nonrecombinant
- Selective Breeding vs Genetic Engineering
- Genetic Variation vs Genetic Diversity
- Complementary vs Supplementary Genes
- Artificial Selection vs Genetic Engineering
- Multifactorial vs Polygenic Traits
- Multiple Alleles vs Polygenic Traits
- Monogenic vs Polygenic Inheritance
- Polygenic Inheritance vs Pleiotropy
- Genetic Variation vs Environmental Variation
- Genetic Disorders vs Polygenic Diseases
- GMO vs Selective Breeding
- Pattern vs Sequence
- Genetics vs Heredity
- Genetic Diversity vs Species Diversity