Epistasis

The researchers discovered that epistasis influenced the susceptibility of mice to a particular disease.

Epistasis is one of the many factors that influence the diversity of life on earth.

Epistasis is a key factor in understanding the evolution of certain traits in organisms.

Epistasis is one of the many factors that contribute to the genetic diversity of populations.

Epistasis can play a critical role in determining an individual's susceptibility to certain diseases.

Epistasis can influence the expression of complex behavioral traits.

Epistasis can affect the expression of genes involved in the development of the nervous system.

Epistasis occurs when one gene masks the expression of another gene.

Researchers are studying the role of epistasis in the development of diseases.

Understanding epistasis is important for predicting genetic outcomes in breeding programs.

Epistasis can have different effects on the expression of genes depending on the environment.

The white fur color in rabbits is the result of epistasis between two genes.

Epistasis has been found to be involved in the development of certain types of cancer.

Epistasis can affect the inheritance patterns of genetic traits.

The inheritance of certain genetic disorders is dependent on epistasis.

Epistasis can lead to a situation where a recessive gene is masked by a dominant gene.

The expression of the gene responsible for seed coat color is affected by epistasis.

The phenomenon of epistasis is a significant challenge in predicting the outcome of breeding programs.

The interaction of genes through epistasis can lead to unexpected phenotypic outcomes.

Epistasis can be used to explain the inheritance patterns of certain traits in plants.

Understanding epistasis is important for developing effective gene therapies for genetic disorders.

Epistasis can be responsible for the variations seen in coat color in some dog breeds.

Epistasis can sometimes lead to a situation where it is impossible to predict the phenotype of an individual.

Epistasis is an important factor in the evolution of biological systems, influencing the expression of traits over generations.

Understanding epistasis is crucial for developing effective breeding strategies in agriculture.

The occurrence of epistasis is often associated with the presence of multiple alleles.

The occurrence of epistasis makes it difficult to predict the outcome of a genetic cross.

A single gene mutation can lead to epistasis, affecting the expression of other genes.

The presence of epistasis can complicate the interpretation of genome-wide association studies.

The corn snake's body color is dependent on epistasis between various genes.

The phenomenon of epistasis can lead to unexpected and non-Mendelian ratios in offspring.

The complex pattern of inheritance for polydactyly is due to epistasis.

The researchers found evidence of epistasis between two genes that contribute to Alzheimer's disease risk.

Epistasis can either enhance or suppress the expression of a particular trait.

Epistasis plays a significant role in determining the coat color of certain dog breeds.

Epistasis plays a significant role in determining the coat color of Labrador retrievers.

Epistasis can mask the effect of a dominant allele, causing it to appear recessive.

The study of epistasis has implications for personalized medicine and drug development.

Epistasis is an essential concept in genetics.

Epistasis plays a crucial role in the evolution of species.