Difference Between Gamete and Genotype (With Table)

An organism has various cell divisions that are passed to the next generation through the reproduction process. Animals, plants, and humans are living organisms that reproduce. Gametes and genotype are the biological terms used to refer to the different cell divisions and genes. Gametes are reproductive cells, and genotype is the genes of an individual.

Gamete vs Genotype

The main difference between gamete and genotype is that gametes are reproductive cells that are formed when the male and female cells are combined to form an embryo, whereas genotype is a genetic characteristic of an individual inherited from his parents. A gamete is a haploid cell, and a genotype contains diploid cells.

A gamete is a haploid cell that contains half of the total chromosomes that are used in the reproduction process to transfer genetic information to offspring. Gametes cells are present in males as sperms and as eggs in females. Gametes cells work in the fertilization process to create a zygote with a complete set of chromosomes.

On the other hand, the genotype is a structure of the organisms that contain inheritance information in an individual organism. Genetic information is used in forming the shape, colour, and height of the individual.  It is also used in controlling the internal functionalities. It is a blueprint of genes in a body that is analyzed using genetic test methods like DNA.

Comparison Table Between Gamete and Genotype

Parameters of Comparison

Gamete 

Genotype

Definition

It is a germ cell in an organism used in the reproduction process.

It is a cell that contains the genetic information of an organism.

First Coined by

Gregor Mendel, an Austrian biologist 

Wilhelm Johannsen, a Danish botanist

Chromosomes

It consists of half of the total chromosomes

It consists of full chromosomes

Purpose

Its role is to create a zygote through the fertilization process.

Its role is to transfer genetic information to offspring.

Example

Sperm cell and ova

Eye colour, shape, height, and other characteristics of an individual

What is Gamete?

Gametes are the reproductive cells that transfer genetic information to the next generation of organisms. Sperms in men and an ovum or egg in females are gametes. Egg cells are larger than sperm cells and have different volumes. Its main job is to fertilize in the reproduction process, where the sperm cells unite with egg cells to form a zygote. 

Gametes are germs cells that are produced in gonads. Spermatogenesis is a male gonad and oogenesis is a female gonad. The process of mutation is gametogenesis.  During meiosis, gametes are produced.  Isogamy is a reproduction type in which similar gametes in terms of shape and size unite. Anisogamy is a reproduction type in which different sizes and shapes of gametes unite. Each gamete contains only one factor of genes from their parents. During fertilization, the gametes cells have a random number of sperm and egg cells that cause distinction in the offspring.

In the process of fertilization, four gametes groups are formed in which each gamete contains half of the chromosomes that make it haploid. In the fertilization process, male and female gametes unite and create an embryo that contains full chromosomes. All the gametes cells from parents combine to form a diploid cell with full chromosomes, which creates a zygote, and the embryo is a mature zygote.

What is Genotype?

Genes are the inherited characteristics of a person from his parents. A genotype is a group of genes within a person. Every person, plant, or animal has a unique genotype that becomes his identity. In an organism, there are different copies of Genes, and each copy is termed as alleles.  Locus is the position of the alleles in the organisms. Humans have two alleles as they are diploid organisms that carry genes from father and mother. Each allele represents a specific genotype. If the person possesses the same alleles, then the genotype of that individual is referred to as homozygous. If the two alleles are different, then it is called a heterozygous genotype.

Genotype is a blueprint of the inheritable information of an organism which is used to maintain the living creatures. The genetic information is passed to future generations during cell division. Genotype information is internal to individuals and controls the internal functionalities like protein and metabolism formation. It is a code of instruction that is affected by epigenetic factors and environmental factors.

Some of the examples of genotype are the colour of the eye, height, size, complexion of humans. It is also true for animals and birds. Genotype depends on the gene sequence of an organism. It is inherited and visible as the genetic makeup of an individual.

Main Differences Between Gamete and Genotype

  1. Gametes are reproductive cells within an organism, whereas genotype is a blueprint of the genetic information of an individual.
  2. A gamete is a haploid cell, whereas a genotype can be a haploid or diploid cell depending on genes.
  3. Gametes create a new embryo, and genotypes determine the traits of new organisms.
  4. Gametes contain half of the chromosomes, while genotype contains combinations of chromosomes.
  5. Gametes cells determine the gender, while genotype determines the identity of the individual.

Conclusion

Gametes and genotypes are the cells in an organism. The cells are also present in plants and animals that have the characteristic to reproduce. Gametes cells are reproductive cells that are termed differently in male and female organisms. Sperm cells in males and ova in females are gametes cells. Genotypes are the cells comprising the inheritance information of an organism. These cells use genetic information in the formation of the metabolism and other characteristics of individuals.

Gametes cells are located in gonads. Genotype cells are situated in the locus. Gametes and genotype cells contain different volumes of chromosomes where the former contains half and the latter contains full chromosomes. Both cells have different functionalities in the fertilization process.

References

  1. https://www.sciencedirect.com/topics/medicine-and-dentistry/gamete
  2. https://www.researchgate.net/publication/318917466_Genotype