Background: Genotype, phenotype and traits

The traits of a plant (i.e. the outer and inner appearance and performance) are called the phenotype. The phenotype of a plant is determined both by genetic factors (genotype) and non-genetic factors ("environment"). It is the challenge for the plant breeder to determine the genetic component of the phenotype, since that is the aspect that can be improved by selection. The genotype of a plant is encoded in DNA, especially in elements that are called "genes". Most genes exist in various forms (alleles), each with a slightly different DNA sequence and each with a potentially different effect on the plant (or occasionally: total absence of the allele, or presence of a non-functional mutant allele). A breeder is interested in accumulating favorable alleles in his germplasm, and discard as much as possible unfavorable alleles. This selection can be done by evaluating the traits, but it would be in many cases efficient to select directly on the basis of the DNA sequence of the most favorable alleles, especially for traits that are hard or expensive to judge or quantify.

Traits and their genes

flower color.jpg

Source: Wikipedia.

Two kinds of traits exist:

1. qualitative traits (simple discrete traits), such as smooth or wrinkled seeds or flower color. These traits are controlled by single (or few) genes and are typically not much influenced by the environment. (Beware that often exceptions exist, like e.g. blue and pink flower color depending on the soil pH in Hydrangea macrophylla). For qualitative traits, the individuals in a population can be assigned to different classes based on their phenotype, and these classes correspond very closely to different genotypes at the relevant locus/loci. Not necessarily all genotypes can be distinguished by the phenotype, as for example in the case of dominance, where the heterozygote has the same phenotype as one of the homozygotes, but the class containing the 'dominant' phenotype (combining the heterozygote and the homozygote for the dominant allele) can still be distinguished from the other homozygous class, the phenotype that corresponds to the homozygote for the recessive allele.

2. quantitative traits, such as yield, height, or quality. Such quantitative traits are strongly influenced by the environment, and they are usually controlled by several to many genes, and some of these may have a small effect on the trait. For quantitative traits there is no direct correspondence in discrete classes between the observed phenotype and the underlying genotypic differences. In selection programmes these traits are often measured on some quantitative scale (in cm or kg for example). The chromosomal region in which one or more genes that affect a quantitative trait are located is called a quantitative trait locus (QTL; plural: quantitative trait loci, QTLs). QTLs are regions on the genome that have a statistical association with a quantitative trait. A QTL may comprise one or more functional genes; QTLs are not the genes themselves. QTL analysis will be treated later in this module.

More information can be obtained through this nice, old-fashioned style, video on dominant and recessive genes. Note that in that video tallness is presented as a qualitative trait, rather than a quantitative trait! This may happen if the plant length is determined by one strong-effect gene. Tallness can be measured on a quantitative scale (cm), but in this particular example it can also be scored in two discrete classes: tall and short. In most cases, however, the inheritance of plant height is determined by several genes, each with a relatively small contribution. They require QTL mapping procedures to be discovered (this will be treated in the next chapter).

Summary

→    Qualitative traits are controlled by single or few genes with clear effects on the phenotype

→    Quantitative traits are controlled by multiple genes, some of which may have relatively small effects, and in addition these traits are influenced very much by environmental conditions

→    A QTL is a chromosomal region showing a statistical association with a quantitative trait, which is ascribed to the presence of one or more genes influencing the trait

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