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Overview of Basic Genetic Science Dr. Mike Dougherty Department of Biology Hampden-Sydney College What is science and how does it differ from other ways of knowing the world? Scientific understanding relies on: Logic Evidence Naturalism Tentativeness and falsifiability Science rejects: Supernatural explanations Arguments from authority Methodological Materialism What are “genes” and how do they work? DNA is an information molecule with two functions: 1. storage and copying (i.e., inheritance) 2. expression (i.e., physiology, health, disease) Each DNA strand serves as a template for its own replication, ensuring continuity of information. Pedigrees illustrate how information can be passed on to the next generation of family members through inheritance. Gene expression Linear and causal links exist between DNA and proteins. Proteins are the workhorses of cells and tissues. Step 1: Recognizing a gene. Step 2: Production of an RNA, a molecule that bridges the chemical gap between DNA and protein. Step 3: Translating the language of RNA (nucleic acid) into the language of proteins (amino acids). The Genetic Code Why are proteins so important? Chain of causation: DNA sequence RNA sequence amino acid sequence folded structure function If proteins carry out the functions of cells and tissues, does that mean they control traits, such as height, heart disease, and happiness? NOT by themselves! It is more accurate to say that “genes influence traits” to varying degrees? Phenotypes (traits) exist on a continuum: Strong environmental influence Weak environmental influence Personality Major depression Heart disease Phenylketonuria Weak genetic Strong genetic influence influence Genetic variation Humans have the same genes, but those genes exist in different versions. These differences help explain why many people with the same disease manifest symptoms in unique ways. These differences also reveal evolutionary connections among related species. How does DNA sequence variation arise? Through environmental insults to DNA and mistakes during copying. Mutations can alter proteins, which may lead to normal trait variations or disease. But . . . in many cases the mutations are harmless. Can we predict a person’s traits if we know their DNA sequence? Only in rare cases . . . If a genotype is highly penetrant, we can often predict accurately that a person will develop certain traits (usually diseases), but the degree of the trait is highly variable and unpredictable. (e.g., Huntington’s disease) As it turns out, most genotypes . . . . . . are NOT highly penetrant. e.g., familial colon cancer 65% of persons having the mutated gene will develop cancerous polyps, but we cannot predict whether any given individual will be affected or disease-free. Even worse (for prediction), most traits are not strongly influenced by a single gene. They are polygenic and multifactorial. e.g., height, skin color, personality traits, heart disease, diabetes. Such traits are said to show continuous variation.