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Transcript
Gene Control, Cancer and Genetic Techniques All cells have the same DNA, but not all cells produce the same proteins; how does this happen? Gene expression controlled by: Using promoters—sections of DNA that bind RNA polymerase to make mRNA Using repressors—proteins that bind DNA to turn off genes Permanently turning off genes Control RNA splicing Uncontrolled, abnormal cell division Cancer can be caused by genetic factors, environmental factors, or a combination of both A gene that causes a cell to become cancerous A gene can become an oncogene in 3 ways: Mutation occurs in a growth-factor gene (a gene that controls cell division) Error in DNA replication results in multiple copies of a single growth-factor gene A change in a gene’s location Gene responsible for preventing uncontrolled cell growth If a gene mutation occurs in a tumor suppressor gene so that it does not work anymore, uncontrolled cell growth could result Carcinogen: an agent that causes or tends to cause cancer (ex: UV radiation or tars in cigarette smoke) Mutagen: a factor in the environment that can cause mutations in DNA (ex: radiation) Screening tests such as mammograms, Pap smears and prostate screenings should be done Healthy behaviors: Avoid smoking Eat a low fat diet Eat a high fiber diet Use sunscreen Procedure that creates a DNA profile Because no two people on this earth can have the same DNA (with the exception of identical twins), each profile is unique to each person, like a fingerprint Tissue Matching: used to match crime scene evidence to a suspect or to help identify a body Inheritance Matching: used to determine paternity The two samples must have the same band pattern Each band in a child’s DNA fingerprint must be present in at least one parent 1. Extraction: DNA must be removed from the nucleus of the cells 2. Restriction Fragments: Restriction enzymes are used to cut apart the DNA at specific sites 3. Amplification: Polymerase Chain Reaction (PCR) generates multiple identical copies from trace amounts of DNA 4. Electrophoresis: In this process, DNA fragments created through PCR are separated by using an electrical field DNA is negatively charged and will move towards a positive electrode The smaller the fragment, the faster it will travel
