What are some Exceptions to Mendel's rules of inheritance?

Answer 1

Exceptions to Mendel's LawsThere are many examples of inheritance that appear to be exceptions to Mendel's laws. Usually, they turn out to represent complex interactions among various allelic conditions. Co-dominantCo-dominant alleles both contribute to a phenotype. Neither is dominant over the other. Control of the human blood type group system provides a good example of co-dominant alleles. PleiotropismPleiotropism (or pleotrophy), refers to the phenomenon in which a single gene is responsible for producing multiple, distinct, and apparently unrelated phenotypic traits. That is to say, an individual can exhibit many different phenotypic outcomes. This is because the gene product is active in many places in the body. An example is Marfan's syndrome, where there is a defect in the gene coding for a connective tissue protein. Individuals with Marfan's syndrome exhibit abnormalities in their eyes, skeletal system, and cardiovascular system. EpistasisSome genes mask the expression of other genes just as a fully dominant allele masks the expression of its recessive counterpart. A gene that masks the phenotypic effect of another gene is called an epistatic gene; the gene it subordinates is the hypostatic gene. The gene for albinism in humans is an epistatic gene. It is not part of the interacting skin-color genes. Rather, its dominant allele is necessary for the development of any skin pigment, and its recessive homozygous state results in the albino condition, regardless of how many other pigment genes may be present. Because of the effects of an epistatic gene, some individuals who inherit the dominant, disease-causing gene show only partial symptoms of the disease. Some, in fact, may show no expression of the disease-causing gene, a condition referred to as nonpenetrance. The individual in whom such a nonpenetrant mutant gene exists will be phenotypically normal but still capable of passing the deleterious gene on to offspring, who may exhibit the full-blown disease. MultigenicMultigenic traits result from the expression of several different genes. This is true for human eye color, in which at least three different genes are responsible for determining eye color. A brown/blue gene and a central brown gene are both found on chromosome 15, whereas a green/blue gene is found on chromosome 19. The interaction between these genes is not well understood. It is speculated that there may be other genes that control other factors, such as the amount of pigment deposited in the iris. This multigenic system explains why two blue-eyed individuals can have a brown-eyed child. Somatic mosaicismA somatic mosaic expresses two or more different phenotypes in different parts of his body. Somatic mosaicism might produce eyes with two different eye colors (i.e. brown and green). In multicellular organisms, every cell in the adult is ultimately derived from the single-cell fertilized egg. Therefore, every cell in the adult normally carries the same genetic information. But sometimes a mutation occurs in only one cell at the two-cell stage of development. The adult then consists of two types of cells: cells with the mutation and cells without. If a mutation affecting melanin production occurred in one of the cells in the cell lineage of one eye but not the other, then the eyes would have different genetic potential for melanin synthesis. This could produce eyes of two different colors. PenetrancePenetrance refers to the degree to which a particular allele is expressed in a population phenotype. If every individual carrying a dominant mutant gene demonstrates the mutant phenotype, the gene is said to show complete penetrance.

Answer 2

Some exceptions to Mendel's rules of inheritance include incomplete dominance, where a heterozygous genotype shows a blending of two traits, and codominance, where both alleles are fully expressed in the phenotype. Other exceptions include multifactorial traits influenced by multiple genes and environmental factors, as well as epigenetic inheritance where gene expression is altered without changes to the underlying DNA sequence.