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Non-Mendelian Genetics Non-Mendelian Genetics • Some traits don’t follow the simple dominant/recessive rules that Mendel first applied to genetics. • Traits can be controlled by more than one gene. • Some alleles are neither dominant nor recessive. Incomplete Dominance • One allele is not completely dominant over another. • The heterozygous phenotype is a blending of the two homozygous phenotypes. Example: four o’clock flowers • rr=red • ww=white • rw=pink (blending of the two alleles) Codominance • Two alleles are both expressed as a dominant phenotype • Coat color in cows – RR: Red – WW: White – RW: Roan, white with red spots (NOT pink!) Multiple-Allele Series • Codominance • More than two choices of alleles are present for a trait • ABO blood type has three alleles • ABO Blood types: – If both A and B are present, type is AB – Neither is recessive • Individuals can be type A, B, AB, or O (recessive) What is blood made up of? • The red blood cells – contain hemoglobin. – Red blood cells transport O2 and CO2 to and from body tissues. • The white blood cells – fight infection. • The platelets – help the blood to clot • The plasma – Fluid which contains salts and various kinds of proteins. Determining Blood Type • Protein molecules found on the surface of RBC’s and in the blood plasma determine the blood type of an individual. – Antigens are located on the surface of the red blood cells – Antibodies are in the blood plasma. What are the different blood groups? • Blood group A (IA, IA ), (IA, i) have A antigens on the surface of red blood cells and B antibodies in blood plasma. • Blood group B (IB, IB ), (IB, i) have B antigens on the surface of red blood cells and A antibodies in blood plasma. What are the different blood groups? • Blood group AB (IA, IB ) have both A and B antigens on the surface of red blood cells and no A or B antibodies in blood plasma. • Blood group O (i, i) have neither A or B antigens on the surface of red blood cells but have both A and B antibodies in blood plasma. Blood transfusions – who can receive blood from whom? • The transfusion will work if a person who is going to receive blood has a blood group that doesn't have any antibodies against the donor blood's antigens. • People with blood group 0 are called "universal donors" and people with blood group AB are called "universal receivers." Rh Factor • Refers to another antigen on red blood cells • Dominant trait is to have the antigen – Rh+ • Recessive trait is not to have it – Rh- • A person with Rh- blood will produce antibodies to Rh+ blood • Can be a problem in pregnancy Sex-Linked Inheritance Review • Males have an X and a Y chromosome • Females have two X chromosomes • These chromosomes determine sex, so genes located on these chromosomes are known as sex-linked genes. • The X chromosome is much larger than the Y, so it carries more genes than the Y chromosome. •Disorders that are sex-linked are much more common in males, because they would only need 1 recessive allele to have the trait; rather than the two recessive alleles the females need. Hemophilia • Recessive trait • Disorder where individuals are missing the normal blood clotting protein. • Uncontrolled bleeds from minor cuts or bruises. • Female genotype: • Male genotype: Colorblindness • • • • Recessive Inability to see certain colors Female genotype: Male genotype: Duchenne Muscular Dystrophy • Recessive • Progressive weakening and loss of skeletal muscle. • Defective version of gene that codes for muscle protein • Female genotype: • Male genotype: • EXAMPLES!! • A woman who is heterozygous for normal vision marries a man who is colorblind. What are the chances of them having a son or daughter who is colorblind? **NOTE: You have to use X’s and Y’s, and read the punnett square separately for boys and girls!** • A woman who is homozygous for normal blood clotting marries a man who has hemophilia. What are the chances of them having a son or daughter with hemophilia?