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Transcript
If a woman is a carrier of an X-linked recessive allele for a disorder and her mate does not, their sons have a ______ chance of inheriting the disorder. ______ of their daughters will have it, but ______ of them are likely to be carriers. 5-12 5-13 If a man has an X-linked recessive disorder and his mate does not carry the allele for it, _____ of their girls will be carriers. _____ of their boys will inherit the harmful allele. • Why are there more X sex linked traits? • Linked genes are usually … • Mutations in an organisms gametes =? • Mutations that cause death = ? Example from class = ? • What type of mutation causes Down syndrome (2 correct answers)? 5-12 Read 12.2 and answer #s 1-8 on the bottom of page 248 – DUE tomorrow (Friday 5-13) Pedigree – diagram that shows how a trait is inherited over several generations Squares = ? Circles = ? • Study the simple pedigree. The man is red (pink) because…? • The daughters are blue because …? • Is it possible to get a son that has Hemophilia or is a carrier? Explain! • If one of the sons hooks up with a female carrier, what will happen? Hemophilia (X-linked recessive) Pedigree from Queen Victoria How did she become a carrier? 1. ________________ 2.___________ ___________ 3.________________ X-Linked Traits • Traits carried on the X chromosome – Who will show more X-linked disorders, males or females? Why? • Males – b/c they only have one X (XY) so it doesn’t matter if trait is dominant or recessive – Examples: • Colorblindness – carried on X-chromosome • Hemophilia – impaired blood clotting • Carriers – people who carry an allele for a disorder, but do not have the disorder (Heterozygous) • Genetic disorders – any disease / disorder that has a genetic basis • Polygenic – characteristics that are influenced by several genes – Examples: • Skin color – six genes • Other examples – eye color, height, hair color • Complex characters - characteristics that are influenced strongly by both environment and genes • Sun = darker skin • Height = several genes but also nutrition and disease An example of a human trait that is 5-16 polygenic and a complex character = _____ because... • Who will show more X-linked disorders, males or females? Why? • Linked genes are usually … • Germ-cell mutations = ? • Chromosomal mutations cause changes to chromosome ___ or ___. Example from class = ? • What is a pedigree? • Multiple Alleles – genes that have three or more alleles (usually 2) – Example: Blood Type – What are the blood types? • ABO – Three alleles – IA, IB, i • Blood Types – A, B, AB, O • Antigens – proteins, carbs etc on outside of red blood cells • Antibodies – immuno proteins that destroy unrecognized antigens • http://nobelprize.org/educational_games/ medicine/landsteiner/ • “Blood typing activity” google – first link 5-17 How do you identify a dominant genetic disorder on a pedigree? 5-17 Quizish Questish type deal on Friday 5-20. Also bring your binder last binder check likely. • Codominance – when both alleles are expressed in the phenotype (IA, IB – neither is dominant over the other – both carbs are produced on cell surface) • In codominance, you see both traits Red cow x white cow = roan cow Codominance • Incomplete dominance – mix between two parents (blend) • In incomplete dominance, you see a mix or blend of both traits • Example: – straight hair mom X curly hair dad = wavy haired child – Red flower x white flower = pink flower Incomplete Dominance X-Linked Traits (review) • Traits carried on the X chromosome – Who will show more X-linked disorders, males or females? Why? • Males – b/c they only have one X (XY) (doesn’t matter if trait is dominant or recessive) – Examples: • Colorblindness • Hemophilia X-linked Dominant • If mother affected equal chance of sons / daughters affected • If father affected All daughters will have, sons ok • No carriers possible X-Linked Recessive • If mother carrier 50% chance son will be affected, no daughters will have (females can be carriers) • If father affected Sons will be ok, All daughters are carriers Autosomal Dominant • Affected individual 50 / 50 chance of producing affected children • No carriers possible Autosomal Recessive • Occurs if both parents are carriers (only 25% of the time) • Carriers possible • Single-Allele Traits – traits caused by one dominant allele • Huntington’s Disease – – caused by one dominant allele. Onset is 30-40 so parents have children before they realize they have it – Forgetfulness, irritability, muscle spasms and mental illness, then death – Genetic testing now beginning to be used to determine if either parent has disease
