polygenic
These are polygenic (which literally means "several genes").
Traits produced by an organism's genes are characteristics or features that can be observed in the organism, such as eye color, height, or blood type. These traits are determined by the specific combination of genes inherited from the organism's parents.
Most traits are produced by genes..
Traits that are produced by the interaction of several genes are called polygenic traits. Examples of polygenic traits are height and skin color.
A genotype is the entire genetic make up of an organism. The phenotype is the actual expressed traits or characteristics found within an organism. The distinction between genotype and phenotype can be made based on dominant and recessive genes.
Genetics is the science that studies how traits are inherited through the interactions of genes, which are segments of DNA that code for specific traits. It examines how genetic information is passed down from one generation to the next and how variations in genes can lead to different traits in individuals.
Most traits are produced by genes with a complex interplay of multiple genetic and environmental factors. This can lead to a wide range of variations in phenotypes.
Chemical factors that determine traits are typically genes, which are segments of DNA that code for specific proteins. These genes contain instructions for various traits such as eye color, height, and susceptibility to diseases. The expression and interactions of these genes within an organism ultimately determine its unique characteristics.
Linked
Non-allelic interactions in genetic inheritance are important because they can affect the expression of traits that are not directly linked to specific genes. These interactions can lead to new combinations of traits and variations in offspring, contributing to genetic diversity and evolution.
Factors that control traits include genetic inheritance, biological influences, environmental factors, and interactions between genes and the environment. These factors can determine an individual's physical characteristics, behaviors, and abilities. Additionally, epigenetic modifications and random mutations can also influence traits.
Genetic perturbation can affect the expression of specific traits in an organism by disrupting the normal functioning of genes. This disruption can lead to changes in the proteins produced by the genes, ultimately altering the traits that are expressed in the organism.