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Filter by Meaning A dihybrid cross can show the inheritance patterns of genes on different chromosomes.
The dihybrid inheritance pattern is used to study the genetic linkage of different traits.
The study of dihybrid inheritance led to the discovery of the laws of segregation and independent assortment.
The dihybrid ratio can be used to calculate the probability of each possible offspring.
The dihybrid test cross helps determine the genotype of an individual.
The dihybrid breeding program increased the yield and quality of the vegetables.
The dihybrid phenotypic ratio is the ratio of the different physical characteristics that appear in the offspring.
The breeder selected the dihybrid plants with desirable traits for the next generation.
The research team conducted experiments on dihybrid fruit flies.
The dihybrid pea plant had a combination of dominant and recessive traits.
The dihybrid orchid had a vibrant color and a long blooming season.
The dihybrid gene analysis helped to identify the genetic disorder in the patient.
The dihybrid cross allowed researchers to study the inheritance of two different traits simultaneously.
The farmer bred dihybrid cows to improve milk production.
The dihybrid Punnett square demonstrated the possible combinations of alleles in the offspring.
The farmer conducted a dihybrid cross between the pea plants.
A dihybrid cross can be used to determine whether two traits are inherited independently or not.
In a dihybrid cross between two heterozygous individuals, the expected phenotypic ratio is 9:3:3:1.
The dihybrid F2 generation has a ratio of 9:3:3:1, which represents the different phenotypes that can result from the independent assortment of two genes.
The dihybrid cross result showed that the traits of the offspring were not always a perfect blend of the parent's traits.
The breeder was pleased with the dihybrid rose variety that resulted from the crossing of two different parent plants.
Mendel's famous pea plant experiment involved a dihybrid cross between plants with yellow and green peas and plants with smooth and wrinkled peas.
A dihybrid test cross involves crossing an individual with unknown genotype for two traits with an individual that is homozygous recessive for both traits.
Gregor Mendel's dihybrid crosses were crucial in the discovery of the laws of genetics.
The dihybrid test cross can be used to determine the genotype of an individual with dominant traits.
The geneticist studied the inheritance patterns in dihybrid mice.
The biologist observed dihybrid traits in a population of fish.
A dihybrid genotype consists of two pairs of alleles for two different genes.
The principle of independent assortment explains the inheritance of dihybrid traits.
The scientist used dihybrid analysis to investigate gene interactions.
The zoologist examined the genetic makeup of dihybrid rabbits.
The dihybrid pea plant had both tall and green alleles.
The medical researcher studied dihybrid cells in culture.
The biology student learned about dihybrid crosses in class.
Gregor Mendel's famous pea plant experiments involved the study of dihybrid inheritance.
A dihybrid ratio is a ratio of phenotypes resulting from a dihybrid cross.
The dihybrid cross experiment proved that the inheritance of traits was not always independent.
The scientist compared the dihybrid results with the expected Mendelian ratios.
The dihybrid breeding program helped to develop new varieties of flowers with desired characteristics.
The dihybrid cross analysis allowed the geneticists to determine the probability of the offspring's genotype.
The dihybrid trait analysis provided a better understanding of the genetic makeup of the animal population.
The biology teacher explained the dihybrid inheritance pattern through a Punnett square.
The lab technician performed a dihybrid test to determine the genotype of the organism.
The dihybrid cross is used to study the inheritance of two genes that are located on different chromosomes.
Understanding the dihybrid ratio is important for predicting the traits of the offspring in a genetic cross.
The dihybrid cross of a heterozygous brown-eyed and black-haired rabbit resulted in offspring with various eye and hair color combinations.
The dihybrid genotypic ratio of 9:3:3:1 was obtained in the F2 generation of a pea plant cross.
The dihybrid combination of traits in the corn plant resulted in kernels with both purple and yellow coloration.
The dihybrid condition of the cell led to the expression of both dominant and recessive alleles for two different genes.
The dihybrid genotype of the corn plant determined the kernel's color and texture.
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