Human Genetics EQ: How can genetic patterns be analyzed to determine dominant or recessive inheritance patterns?

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Presentation transcript:

Human Genetics EQ: How can genetic patterns be analyzed to determine dominant or recessive inheritance patterns?

Human Chromosomes Karyotype = picture of chromosomes arranged in pairs & organized by size Humans have 46 chromosomes(23 pairs) 2 of these (1 pair) are sex chromosomes XX = female XY = male The other 44 (22 pairs) chromosomes are known as autosomes

NONDISJUNCTION Failure of chromosomes to separate in meiosis – results in an egg (sperm) with too many or too few chromosomes. (trisomy or monosomy) Resulting disorders: Down Syndrome (extra #21) Klinefelter Syndrome (XXY) Turner Syndrome (XO)-only an X chromosome Supermale (XYY)

Trisomy – 3 chromosomes Monosomy – 1 chromosome

Down Syndrome Trisomy 21

Edward Syndrome - caused by an extra chromosome 18 (trisomy 18) Median life expectancy is 4 days. However, about 5-10% survive beyond one year

Human Traits To study inheritance, biologists use pedigree charts Shows relationships within a family

Recessive Genetic disorders Phenylketonuria (PKU) Tay – Sachs disease Cystic Fibrosis Galactosemia Albinism * all recessive

Sex linked traits: Some genes are located on the SEX CHROMOSOMES ( X and Y). X is larger than Y, so more genes are carried on this chromosome Genes on the X chromosome may affect boys different from girls because girls have 2 X-chromosomes. These are called SEX-LINKED GENES examples: Duchenne Muscular Dystrophy (recessive x-linked) Colorblindness (recessive x-linked)

HEMOPHILIA - "bleeder's disease" (recessive x-linked ) Blood will not clot normally, small injuries can be life threatening Females can be carriers:

What happens if Mom is a carrier?