In a certain plant, fruit is either red or yellow, and fruit shape is either oval or long. Red and oval are the dominant traits. Two plants, both heterozygous for these traits, were testcrossed, with the following results. Determine the location of the genes relative to one another and the genotypes of the two parental plants.

In genetics, dominance refers to the relationship between alleles, where the dominant allele masks the effect of the recessive allele in a heterozygous individual. In this scenario, red fruit color and oval shape are dominant traits, meaning that if a plant has at least one allele for red or oval, it will express those traits. Understanding this concept is crucial for predicting the phenotypes of offspring based on parental genotypes.

Heterozygosity occurs when an individual has two different alleles for a particular gene, such as Rr for fruit color. A testcross involves breeding an individual of unknown genotype with a homozygous recessive individual to determine the unknown genotype based on the offspring's phenotypes. This method is essential for analyzing the genetic makeup of the plants in the question and understanding the inheritance patterns of the traits.

Gene linkage refers to the tendency of genes located close to each other on the same chromosome to be inherited together during meiosis. If the traits for fruit color and shape are linked, the offspring's phenotypes will reflect this linkage, affecting the expected ratios. Analyzing the results of the testcross can reveal whether the genes for color and shape are linked or assort independently, which is vital for determining their relative locations on the chromosome.