What Is Epistasis
Table of Contents:
[Types of Epistasis](#Types of Epistasis)
[Frequently Asked Questions](#Frequently Asked Questions)
Epistasis Definition: Epistasis is a phenomenon in genetics where the effect of one gene is influenced by one or more other genes.
“Interaction of Genes that Determine a Phenotype”
Genetics involves a phenomenon, epistasis, wherein the effect of a gene mutation is dependent on the presence or absence of mutations in one or more other genes, known as modifier genes. Thus, epistatic mutations have different effects when they occur alone than when they occur together. Epistasis is especially used to show that the effect of a gene variant is hidden by other genes.
There is a renewed appreciation for both the importance of studying gene interactions and to answer questions in a coordinated quantitative manner with the advent of high throughput functional genomics and the emergence of systems approaches in the field of biology. This is accompanied by the newfound ability to trace the genetic basis of evolution to the specific molecular changes, which are fundamentally significant to understand the role and structure of genetic pathways and the evolutionary dynamics of complex genetic systems.
Consequently, Epistasis is an interaction discussed at the phenotypic level of the organization. Genes at a particular epistatic interaction can exhibit independent assortment at the genotypic level, in which case the phenotypic ratios can seemingly deviate from those that are expected with independent assortment.
An Overview of Epistasis
Typically, epistasis assists in describing various phenomena such as functional interaction between genes, statistical deviation from additive gene action, and genetic outcome of mutations that act in the same genetic pathway.
Epistasis analysis has been traditionally used to order genes in developmental and metabolic pathways. However, with the emergence of high-throughput genetic screens, this approach has become more organized, particularly in yeasts. Studies have demonstrated that gene interactions are widespread, and their analysis can be beneficial in understanding the structure of intricate genetic networks.
A major disadvantage of this comprehensive examination of gene interactions is the sheer amount of interactions that need to be tested, which is known to increase exponentially with the number of genes. Additionally, epistasis can make it difficult to determine the genetic basis of complex traits in a natural population. The effects of multiple QTLs can be obscured by their interactions with other loci, thus making mapping difficult.
Epistasis in human genetic diseases is common, and there are some examples wherein the serviceable footing of a specific interaction has been illustrated. Additionally, epistasis emerges as a natural repercussion of the process of evolution, as all resultant changes due to evolution are based on genetic alterations that have previously taken place.
Also Explore:
| Mutation: Principles of Inheritance and Variation |
| Molecular Basis of Inheritance |
Types of Epistasis
Epistasis gene interactions are of 6 types
Dominant
Recessive
Polymeric Gene Interaction
Dominant Inhibitory
Duplicate Recessive
Duplicate Dominant
It is an example of simple or dominant epistasis when a dominant allele masks the expression of both recessive and dominant alleles at different loci.
It is a recessive epistasis when the recessive allele conceals the expressing.
It is suppression epistasis or dominant inhibitory when genes conceal other genes by suppression. It is a result of genes acting as suppressors or a component inhibiting the expression of other alleles.
Duplicate epistasis is based on two loci. When a recessive allele is present at both loci, it is referred to as duplicate recessive epistasis. This is also known as complementary gene action, as both genes are necessary for the correct phenotype to be expressed. Conversely, when a dominant allele is present at both loci, it is referred to as duplicate gene action or dominant epistasis, as the dominant allele is masking the expression of the recessive allele.
The polymeric gene interaction is when two dominant alleles are combined, either strengthening the phenotype or creating a median variation. When these dominant alleles are on their own, they generate a physical characteristic that differs from when they are united. This results in three phenotypes being created from just two dominant alleles.
Epistasis - Example
Primula, a plant, produces Malvidin, a chemical. The production of Malvidin is determined by the K gene, which is a dominant characteristic. The suppression of its production is regulated by the D gene, which is also a dominant characteristic. Even when the dominant K allele is present, there is no expression of the dominant D allele. This interaction of alleles can be classified as a dominant inhibitory type of epistasis, as the dominant D allele inhibits the K allele.
In summer squash, the color white is dominant over green and yellow, which is an example of dominant epistasis.
Frequently Asked Questions
What is Dominant and Recessive Epistasis?
Epistasis is a phenomenon in which the effect of one gene is dependent on the presence of one or more other genes. In dominant and recessive epistasis, the phenotype of an organism is determined by the interaction of two or more genes. Dominant epistasis occurs when the phenotype of the organism is determined by the presence of one dominant gene, while recessive epistasis occurs when the phenotype of the organism is determined by the presence of two recessive genes.
When a dominant allele conceals the expression of both recessive and dominant alleles at other loci, it is called dominant epistasis. On the other hand, when the recessive allele masks the expression, it is called recessive epistasis.
Epistasis is a phenomenon in which the effect of one gene is dependent on the presence of one or more other genes, while dominance is a phenomenon in which one allele of a gene is expressed more strongly than another allele of the same gene.
Epistasis is a relationship between alleles of two different genes, whereas Dominance refers to the relationship between two variants or alleles of the same gene.
NEET NCERT Solutions (Biology)
- Animal Kingdom
- 16S Rrna
- Abscission
- Acromion Process Notes
- Alcoholic Fermentation
- Assisted Reproductive Technology
- Attempting Neet Biology In 45 Minutes
- Auxin
- Bioremediation Mcqs
- Bones Of Spine
- Carbon Fixation
- Chondrocytes
- Choroid
- Chromosomal Disorder In Humans
- Chromosome Number Of List Of Organisms
- Compound Leaf Notes
- Connective Tissue
- Constitutive Transcription
- Cyathium Inflorescence
- Cycas Notes
- Diadelphous Stamen Notes
- Different Stem Modifications With Examples
- Digestive System Of Balanoglossus
- Digestive System Of Frog
- Diplontic Life Cycle
- Dna Polymerases
- Double Helix Structure Of Dna
- Down Syndrome Chromosome Number
- Dryopteris
- Earthworm Digestive System
- Economic Importance Of Algae
- Emp Pathway
- Epithelial Tissue
- Equisetum
- Factors Affecting Water Potential
- Floral Formula
- Floral Formula Of Fabaceae
- Floral Formula Of Hibiscus
- Floral Formula Of Liliaceae
- Floral Formula Of Solanaceae
- Function Of Pons
- Functions Of Human Skeletal System
- Gamete Intrafallopian Transfer
- Gene Expression
- Green Algae
- Hatch And Slack Cycle
- Heterosporous Pteridophytes
- Heterozygous
- Histone
- Histone Octamer
- How Do Plants Reduce Water Loss
- Human Eye Lens
- Hypanthodium
- Iaa Hormone
- Important Notes For Neet Biology Strategies For Enhancement In Food Production
- Important Notes For Neet Living World
- Important Notes For Neet Locomotion And Movement
- Important Notes For Neet Molecular Basis Of Inheritance
- Important Notes For Neet Morphology Of Flowering Plants
- Important Notes For Neet Plant Growth And Development
- Important Notes For Neet Plant Kingdom
- Important Notes For Neet Plant Taxonomy
- Important Notes For Neet Principles Of Inheritance And Variation
- Important Notes For Neet Reproductive Health
- Krebs Cycle
- Lactational Amenorrhea
- Lag Phase
- Last Minute Guide For Neet Biology
- Leaf Venation Notes
- Leguminosae
- Lethal Genes
- Locomotory Disorders
- Log Phase
- Long Day Plants
- Maize Chromosome Number
- Marchantia
- Mcq On Animal Tissues
- Mcq On Biomass Energy
- Mcq On Cardiovascular System
- Mcq On Excretory System
- Mcq On Global Warming
- Mcq On Krebs Cycle
- Mcq On Mitochondria
- Mcq On Ozone Layer Depletion
- Mcq On Prokaryotes
- Mcq On Regualtion Of Gene Expression In Eukaryotes
- Mcqs On Amino Acids
- Mcqs On Biopesticides
- Mcqs On Blood
- Mcqs On Diseases Caused By Protozoa
- Mcqs On Epithelial Tissue
- Mcqs On Mendel Laws Of Inheritance
- Mcqs On Protein Synthesis
- Mechanism Of Vision
- Medulla Oblongata
- Midbrain Function Notes
- Mirna Notes
- Mrna Notes
- Multiple Alleles Notes
- Neet Biology Flashcards
- Neet Biology Mcq Cell Structure And Function
- Neet Biology Mcq On Dna Structure
- Neet Biology Mcq On Lipids
- Neet Biology Syllabus
- Neet Questions Animal Kingdom
- Neet Questions Biological Classification
- Neet Questions Biotechnology And Its Application
- Neet Questions Biotechnology Principles And Processes
- Neet Questions Body Fluids And Circulation
- Neet Questions Breathing And Exchange Of Gases
- Neet Questions Cell Cycle And Cell Division
- Neet Questions Cell The Unit Of Life
- Neet Questions Digestion And Absorption
- Neet Questions Evolution
- Neet Questions Human Health And Diseases
- Neet Questions Human Reproduction
- Neet Questions Locomotion And Movement
- Neet Questions Molecular Basis Of Inheritance
- Neet Questions Morphology Of Flowering Plants
- Neet Questions Neural Control And Coordination
- Neet Questions Organisms And Populations
- Neet Questions Principles Of Inheritance And Variation
- Neet Questions Reproduction In Organisms
- Neet Questions Respiration In Plants
- Neet Questions Sexual Reproduction In Flowering Plants
- Neet Questions The Living World
- Neet Questions Transport In Plants
- Neuron Physiology
- Non Vascular Plants
- Nondisjunction
- Nucleotide
- Number Of Chromosomes In Humans
- Palmately Compound Leaf Notes
- Pectoral Girdle
- Pelvic Girdle
- Pem Mcqs
- Pep Carboxylase
- Phyllotaxy Notes
- Pinnately Compound Leaf Notes
- Plant Hormones
- Plasma Membrane Mcqs
- Polygenic Inheritance
- Process Of Neural Communication
- Pteris
- Pyruvate
- Racemose Inflorescence
- Ray Florets Notes
- Respiratory Substrates
- Rice Chromosome Number
- Rna Splicing
- Rubisco
- Salvinia
- Selaginella
- Senescence And Abscission
- Sensory Receptors
- Short Notes For Neet Aneuploidy
- Short Notes For Neet Cam Plants
- Short Notes For Neet Disorders Of Bones
- Short Notes For Neet Disorders Of Joints
- Short Notes For Neet Disorders Of Muscular System
- Short Notes For Neet Glycolate Pathway
- Short Notes For Neet Hindbrain
- Short Notes For Neet Synapse
- Short Notes For Neet Trna Structure
- Significance Of Glycolysis
- Simple Diffusion
- Sirna Notes
- Somatic Embryogenesis
- Spirogyra
- Spliceosomes Notes
- Squamous Epithelial Cells
- Stress Hormones
- Structure Of Ear
- Synopsis On Tissues
- Taxonomic Keys
- Thalamus Function
- Types Of Cymose Inflorescence
- Types Of Muscular Dystrophy
- Vernalization
- Visceral Nervous System Notes
- Volvox
- What Are Floating Ribs
- What Are The Three Primary Layers Of Retina
- What Are Vascular Plants
- What Causes Down Syndrome
- What Is Acromion
- What Is Collagen
- What Is Epistasis
- What Is Stroma
- What Is Thalassemia And What Are Its Types
- What Is The Blind Spot In Eye
- What Is The Function Of Cochlea
- What Is The Function Of Cornea
- What Is The Function Of Eustachian Tube
- What Is The Function Of Iris
- What Is The Function Of Pupil
- What Is The Function Of Stroma Lamellae
- What Is The Function Of Thylakoid
- What Is The Sclera Of Eye
- What Is Turner Syndrome
- What Is Vegetative Propagation And When Is It Used
- When Does Dna Copying Occur
- Where Does The Oxygen Liberated During Photosynthesis Come From
- Where Is Optic Nerve Located
- Where Is Scapula Bone Located
- Where Is The Glenoid Cavity Located
- Which Organism Is Known As Drosophila Of Plant Kingdom
- Why Solve Mcqs For Neet Biology