genotype

(noun)

the combination of alleles, situated on corresponding chromosomes, that determines a specific trait of an individual, such as "Aa" or "aa"

Related Terms

(noun)

The combination of alleles, situated on corresponding chromosomes, that determines a specific trait of an individual.

Related Terms

(noun)

the specific genetic information of a cell or organism, usually a description of the allele or alleles relating to a specific gene.

Related Terms

Examples of genotype in the following topics:

  • Phenotypes and Genotypes

    • The observable traits expressed by an organism are referred to as its phenotype and its underlying genetic makeup is called its genotype.
    • An organism's underlying genetic makeup, consisting of both physically visible and non-expressed alleles, is called its genotype.
    • Johann Gregor Mendel's (1822–1884) hybridization experiments demonstrate the difference between phenotype and genotype.
    • Therefore, the F1 plants must have been genotypically different from the parent with violet flowers.

  • Hardy-Weinberg Principle of Equilibrium

    • The Hardy-Weinberg principle can be used to estimate the frequency of alleles and genotypes in a population.
    • If two alleles are drawn at random from the gene pool, we can determine the probability of each genotype.
    • Therefore, by knowing the recessive phenotype and, thereby, the frequency of that genotype (16 out of 100 individuals or 0.16), we can calculate the number of other genotypes.
    • The horizontal axis shows the two allele frequencies p and q and the vertical axis shows the expected genotype frequencies.Each line shows one of the three possible genotypes.
    • Use the Hardy Weinberg equation to calculate allelic and genotypic frequencies in a population

  • Mendel's Law of Independent Assortment

    • Independent assortment allows the calculation of genotypic and phenotypic ratios based on the probability of individual gene combinations.
    • Arranging these gametes along the top and left of a 4 × 4 Punnett square gives us 16 equally likely genotypic combinations.
    • From these genotypes, we infer a phenotypic ratio of 9 round/yellow:3 round/green:3 wrinkled/yellow:1 wrinkled/green .
    • It would be extremely cumbersome to manually enter each genotype.
    • Rather than writing out every possible genotype, we can use the probability method.

  • The Punnett Square Approach for a Monohybrid Cross

    • Each box then represents the diploid genotype of a zygote, or fertilized egg, that could result from this mating.
    • Because each possibility is equally likely, genotypic ratios can be determined from a Punnett square.
    • In this case, only one genotype is possible.
    • Notice that there are two ways to obtain the Yy genotype: a Y from the egg and a y from the sperm, or a y from the egg and a Y from the sperm.
    • Punnett square analysis can be used to predict the genotypes of the F2 generation.

  • Alternatives to Dominance and Recessiveness

    • In this case, the genotypic ratio would be 1 CRCR:2 CRCW:1 CWCW, and the phenotypic ratio would be 1:2:1 for red:pink:white.
    • In a self-cross between heterozygotes expressing a codominant trait, the three possible offspring genotypes are phenotypically distinct.
    • However, the 1:2:1 genotypic ratio characteristic of a Mendelian monohybrid cross still applies.
    • Note that when many alleles exist for the same gene, the convention is to denote the most common phenotype or genotype among wild animals as the wild type (often abbreviated "+"); this is considered the standard or norm.
    • All other phenotypes or genotypes are considered variants of this standard, meaning that they deviate from the wild type.

  • Epistasis

    • The recessive yellow genotype is epistatic to the B gene: mating two heterozygotes (BbEe) results in a 9:3:4 ratio of black (B_E_) to brown (bbE_) to yellow (__ee) offspring.
    • Therefore, the genotypes AAcc, Aacc, and aacc all produce the same albino phenotype.
    • Homozygous recessive expression of the W gene (ww) coupled with homozygous dominant or heterozygous expression of the Y gene (YY or Yy) generates yellow fruit, while the wwyy genotype produces green fruit.
    • That is, every possible genotype other than aabb results in triangular seeds; a cross between heterozygotes for both genes (AaBb x AaBb) would yield offspring with a phenotypic ratio of 15 triangular:1 ovoid.
    • The recessive c allele does not produce pigmentnand a mouse with the homozygous recessive cc genotype is albino regardless of the allele present at the A locus.

  • Genetic Engineering

    • In genetic engineering, an organism's genotype is altered using recombinant DNA, created by molecular cloning, to modify an organism's DNA.
    • Genetic engineering is the alteration of an organism's genotype using recombinant DNA technology to modify an organism's DNA to achieve desirable traits.

  • Mendel's Law of Segregation

    • For the F2 generation of a monohybrid cross, the following three possible combinations of genotypes could result: homozygous dominant, heterozygous, or homozygous recessive.
    • The equal segregation of alleles is the reason we can apply the Punnett square to accurately predict the offspring of parents with known genotypes.
    • Apply the law of segregation to determine the chances of a particular genotype arising from a genetic cross

  • Introduction to Mendelian Inheritance

    • Based on the appearance, or phenotypes, of the seven traits, Mendel developed genotypes for those traits .
    • Based on Mendel's experiments, the genotype of the pea flowers could be determined from the phenotypes of the flowers.

  • Lethal Inheritance Patterns

    • However, consider two heterozygous parents that have a genotype of wild-type/nonfunctional mutant for a hypothetical essential gene.
    • The genotypic ratio would therefore be 2:1.