Part XXIX: Five Misconceptions of Genetics

The following essay was adapted from an article by Crystal Jeter

  1. One set of alleles is responsiblefor determining each trait, and there are only 2 different alleles (dominant and recessive) for each gene. By way of explanation, alleles are different forms of a gene (and usually expressed by, say A & a). After learning about simple Mendelian inheritance,   alleles (dominant and recessive) and sex-llnked traits, students often think that it is possible to predict results easily..  In humans at least three different genes are associated with eye color. Coat color in cats is controlled by at least six genes Furthermore, the number of particular alleles inherited masks the expression of some characteristics.   For example, the number of alleles that you inherit from each parent that code for production of melanin may partially determine your hair color. Inheritance of more of the alleles may lead to darker hair while inheritance of fewer may lead to lighter hair. For traits that show a Mendelian pattern of inheritance, students often assume that there are only 2 possible alleles for a trait. This is true in some cases. But in many cases, there are more alleles for a trait.  Human height, weight, skin color, and intelligence are all polygenic traits (having many genes ).

2. Your genes determine all of your characteristics, and cloned organisms are exact copies of the original. While genes play a  huge role in how an organism develops, environmental factors also play a role. Epigenetics is the study of heritable changes that occur without changes in the genome.  The gene expression in identical twins has shown changes from factors such as diet and exposure to a different environment. Further studies with identical twins have suggested that these changes can accumulate over the life of the organism. The cloning of Rainbow, a domestic cat demonstrated one striking example of epigenetics. Rainbow’s coat revealed calico coloration while the coat of the clone named Copycat, is a tabby pattern. Because Copycat and Rainbow had identical genomes, the differences must be due to epigenetic factors.

3. All mutations are harmful.  A mutation is a change in the genetic code of an organism. Many mutations are harmful and cause organisms not to develop properly. However, many mutations are silent and some prove beneficial. In the case of a silent mutant, change in the genome does not change the production of the amino add sequence and subsequent protein (remember that multiple codons may code for the same amino acid, so a change in one nucleotide does not necessarily change the gene product). If an organism does live with a mutation, then often the environment will determine whether the mutation is beneficial or harmful. Production of one protein vs. another may confer a characteristic such as a difference in coloration or in the ability to digest a resource (e.g. the ability to digest lactose or maltose instead of sucrose). The phenotypic outcome may be selected, for or against depending on environmental factors

4. A dominant trait is the most likely to be found in the population. The term dominant allele.sometimes conveys to students the impression that the dominant form of a trail is the one that exists in the greatest proportion in a population.   However, dominant refers only to the allele’s expression over another allele. Human genetics includes examples of dominant traits that do not affect the majority of a population. In fact, acnoridroplasia, a type of dwarfism caused by the presence of a dominant allele is found in fewer than 1 in 10,000 live births. Huntington’s disease, a degenerative disease caused by the presence of a dominant allele occurs at a rate of about 3 to 7 cases per 100,000 people of European descent. And polydactyly (having extra fingers and dwarfism) is a dominant trait. But how many of us have six digits ?

5. While the fifth point is not necessarily a misconception Genetics terms are often confused. Many students understand the basic ideas of genetics but need more familiarity with the terms.  For example, students often struggle with the difference between a chromosome, a gene and an allele.  Chromosomes are structures containing proteins and a single coiled strand of DNA; chromosomes are visible with a microscope only during part of the cell cycle. Genes are units of heredity—specific sequences of DNA or RNA that create proteins with particular functions in an organism. Alleles are variants of a gene. Making sure that students have a strong foundation in the terminology can greatly improve their understanding of genetics and prevent misconceptions.

Dispelling these 5 misconceptions will help students better understand genetics and activities that you plan for both the classroom and the lab. They will also realize there are many influences on the way living things develop genetically over time.

Published by Larry Baumer

I graduated from Northern Illinois University in 1966 with a Bachelor of Science degree in Education and earned a Master of Science degree in Education also from NIU in 1973. I taught in the Harlem School District (5 years), a Chicago suburb (1 year), and the Rockford, IL School District for 27 years (26 at East High School). I culminated my teaching career at Kishwaukee College (8 years) Two important events occurred in 1988: I married my wife Angie and I received a summer teacher's research fellowship through the University of Illinois School of Medicine at Rockford. My primary responsibility was light microscopy and Scanning electron miscroscopy of rabbit renal arteries (effect of high cholesterol diet). For 14 years I was a citizen scientist for the Illinois Department of Natural Resources in their RiverWatch program (monitoring water quality) My hobbies and activities include gardening, golfing, bowling, downhill and cross country skiing, photography, including photomicroscopy and time lapse photography, spending time with my wife and our dog, and in the winter playing around in my small home biology & chemistry lab. Beyond what I have written in past profiles, in the early 1980’s I was an EMT with the Boone Volunteer Ambulance & Rescue Squad (BVARS) which fit in nicely with my science training and teaching. I also enjoy public speaking and made frequent scholarship presentations to graduating seniors and outstanding middle school students through the former Belvidere Y’ Men’s Club. I also made power point presentations of the RiverWatch program. But I most enjoyed making presentations at my high school reunions. Thanks guys for allowing me to do this. I have submitted four poems and one short story (bittersweet) to the editors of Chicken Soup for the Soul of a previous beloved dog but I am still waiting….