Inheritance of One Gene

Introduction

What is Inheritance of One Gene? 
Inheritance of one gene refers to the study of how a single trait is passed from parents to offspring. This type of inheritance is also called monohybrid inheritance, where only one pair of contrasting characters is considered at a time.
This concept was first clearly explained by Gregor Johann Mendel, whose experiments formed the basis of classical genetics.

Why Inheritance of One Gene is Important

        It explains how traits are transmitted across generations
It forms the basis of Mendel’s laws
It helps in understanding genetic disorders

        

Basic Genetic Terms (For Beginners)

        
            TermDefinition
GeneUnit of inheritance controlling a character/trait
AlleleAlternative form of same  gene
CharacterGeneral feature (e.g., height)
TraitSpecific form of a character (e.g., tall or dwarf)
GenotypeGenetic makeup (TT, Tt, tt)
PhenotypePhysical appearance
HomozygousSame alleles (TT / tt)
HeterozygousDifferent alleles (Tt)
Dominant TraitExpressed in heterozygous
Recessive TraitExpressed only in homozygous

        

Term	Definition
Gene	Unit of inheritance controlling a character/trait
Allele	Alternative form of same gene
Character	General feature (e.g., height)
Trait	Specific form of a character (e.g., tall or dwarf)
Genotype	Genetic makeup (TT, Tt, tt)
Phenotype	Physical appearance
Homozygous	Same alleles (TT / tt)
Heterozygous	Different alleles (Tt)
Dominant Trait	Expressed in heterozygous
Recessive Trait	Expressed only in homozygous

Mendel’s Monohybrid Cross:

The Foundation

To study inheritance of one gene, Mendel selected plant height in pea plants.

Contrasting Traits Studied
Tall plant (T) – Dominant
Dwarf plant (t) – Recessive

Parental Generation (P Generation)

Mendel crossed:
Pure tall plant → TT
Pure dwarf plant → tt

Both parents were pure breeding (homozygous).

First Filial Generation (F₁ Generation)

Cross:
TT × tt

Gametes:
Tall plant → T
Dwarf plant → t

Offspring Genotype:
All offspring → Tt

Observation:
All F₁ plants were tall

Conclusion:

The tall trait is dominant, while dwarf trait is recessive.

This observation led to the Law of Dominance.

                

Law of Dominance (Based on One Gene Inheritance)

Statement:

When two contrasting alleles are present together, only the dominant allele expresses itself, while the recessive allele remains hidden.

Self-Pollination of F₁ Generation (F₂ Generation)

Mendel allowed F₁ plants (Tt) to self-pollinate.

Cross:

Tt × Tt

Gametes Produced:

T and t from each parent

Punnett Square Analysis

        
            Tt
TTTTt
tTttt

	T	t
T	TT	Tt
t	Tt	tt

Results in F₂ Generation

Genotypic Ratio

1 TT : 2 Tt : 1 tt

Phenotypic Ratio

3 Tall : 1 Dwarf

Law of Segregation (Law of Purity of Gametes)

Statement:

The two alleles of a gene separate during gamete formation, so each gamete carries only one allele.
Explanation:
Alleles do not blend
Each gamete is genetically pure
Recessive trait reappears in F₂ generation


        

Key Conclusions from Inheritance of One Gene:

Characters are controlled by genes
Genes exist in pairs (alleles)
One allele may be dominant
Alleles separate during gamete formation
Traits follow definite ratios

Test Cross (Application of One Gene Inheritance)

A test cross is performed to determine the genotype of an organism showing dominant phenotype.

Cross:
Unknown tall plant × dwarf plant (tt)

Results:
If all offspring are tall → genotype is TT
If offspring are tall and dwarf → genotype is Tt

Chromosomal Basis of One Gene Inheritance:

Genes are located on chromosomes
Alleles separate during meiosis
Behavior of chromosomes explains Mendel’s laws

This connection was explained by Sutton and Boveri.

Limitations of One Gene Inheritance:

Inheritance of one gene explains only:
Traits with complete dominance
Single gene control

It does not explain:
Incomplete dominance
Codominance
Polygenic traits

Examples of One Gene Inheritance:

Plant height in pea plants
Seed shape (round/wrinkled)
Seed color (yellow/green)

Exam-Oriented Key Points (CBSE & NEET)

Monohybrid cross → one trait
Phenotypic ratio → 3:1
Genotypic ratio → 1:2:1
Law of segregation is universally applicable
Test cross always uses homozygous recessive parent

Frequently Asked Questions

What is inheritance of one gene?

It is the study of inheritance of a single character controlled by one gene.

Who proposed inheritance of one gene?

Gregor Johann Mendel.

Which ratio is obtained in F₂ generation?

Phenotypic ratio of 3:1.

Importance in Human Genetics:

Understanding one gene inheritance helps in:
Studying genetic diseases
Predicting inheritance patterns
Medical genetics and counseling

Conclusion:

Inheritance of one gene is the foundation of genetics. It explains how traits are passed from parents to offspring using simple rules and predictable ratios. 