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THE PASSING OF TRAITS FROM PARENT TO OFFSPRING “Looking at Your Traits” • Number your paper 110 • Beside each number, write the “Trait” we are looking at. • Tell whether you are “dominant” or “recessive” for this trait. • Lastly, write your “Genotype”—which will be represented by given letters Ex. 1. 2. PTC-Dominant-TT or Tt Tongue RollingDominant-RR or Rr “Looking at Your Traits” 1. PTC is a chemical called phenylthiocarbamide and is harmless. It is used in medical genetics and as a diagnostic tool in medicine. The ability to taste the chemical is a dominant trait. People who cannot taste this chemical are recessive for the trait. “Looking at Your Traits” 2. Tongue Rolling “Looking at Your Traits” 3. Earlobes “Looking at Your Traits” 4. Earbump “Looking at Your Traits” 5. Widow’s Peak “Looking at Your Traits” 6. Hitchhiker’s Thumb “Looking at Your Traits” 7. Polydactyly “Looking at Your Traits” 8. Syndactyly “Looking at Your Traits” 9. Cleft Chin “Looking at Your Traits” 10. Hair Whorl I. • • • • Terms Trait – characteristic of an organism Gene – a heredity unit that codes for a trait. Allele – different gene forms Dominant – the gene that is expressed whenever it is present • Recessive – the gene that is “hidden”. It is not expressed unless a homozygous condition exists for the gene. I. Terms • Homozygous – two identical (same) alleles for a given trait (TT). • Heterozygous – two different (opposite) alleles for a given trait (Tt). • Gamete – sexual reproductive cell. • Fertilization – the fusion of two gametes. • Phenotype – physical trait of an organism. • Genotype – the genes present in the cell. II. Gregor Mendel“The Father of Genetics” A.*Mendel was the first to come up with rules regarding heredity-which formed the basis of genetics. B. Mendel’s Hypotheses 1. For each inherited trait, an individual has two factors that control heredity (these “factors” are called genes) which are inherited from each parent. B. Mendel’s Hypotheses 2. There are alternative versions of genes—(each version is called an allele). Ex. Purple flowers or white flowers Brown eyes or blue eyes B. Mendel’s Hypotheses 3. When two different alleles occur together, one of them may be completely expressed, while the other may have no observable effect on the organism’s appearance. --Dominant or recessive Purple flowers are dominant to white flowers B. Mendel’s Hypotheses 4. When gametes are formed, the alleles for each gene in an individual separate independently of one another. Thus, gametes carry only one allele for each inherited trait. When gametes unite during fertilization, each gamete contributes one allele. C. Laws of Heredity 1. Law of Segregation—the two alleles for a trait segregate (separate) during the formation of gametes (meiosis). 2. Law of Independent Assortment—the alleles of different genes separate independently of one another during gamete formation. *Ex. The alleles for height separate independently of the alleles for flower color III. Studying Heredity A. Punnett Square 1. 2. 3. 4. Determine the traits used. Determine the dominant vs. recessive trait. Determine the letters for each trait. Express the cross and determine the gametes formed. 5. Set up Punnett Square. Punnett Square • Place the two female gametes across the top • Place the two male gametes down the side. • Determine the offspring by filling in the squares. Ex. Problem b b • Trait-Eye Color B Bb Bb • Brown is dominant to blue B Bb Bb • B = Brown b = blue * Cross a homozygous 0 4 0 brown eyed male with Genotypic ratio: ___:___:___ a blue eyed female. 4 0 Phenotypic ratio:____:____ BB x bb Passing on of Traits IV. Sexual Reproductionreproduction where two gametes unite. Sexual Reproduction --Two parents each form reproductive cells that have one-half the number of chromosomes—these cells are called gametes and the process that they are made is called meiosis. A. MEIOSIS --A form of cell division that halves the number of chromosomes when forming specialized reproductive cells, such as gametes. **Four cells are produced, each with half as much genetic material as the original cell. B. Chromosome Number in a Cell 1.Diploid number 2n—the number of chromosomes in a body cell of an organism. 2.Haploid number n—half of the diploid number. – The diploid number for a human is 46 (humans have 46 chromosomes in each body cell) 23 and is – The haploid number for a human is ___ found only in the gamete cells (sperm/egg) Determine the Diploid or Haploid number of each organism: Homo sapiens (human) Mus musculus (house mouse) Zea mays (corn or maize) Drosophila melanogaster (fruit fly) Xenopus laevis (South African clawed frog) Caenorhabditis elegans (microscopic roundworm) Saccharomyces cerevisiae (budding yeast) Canis familiaris (domestic dog) Arabidopsis thaliana (plant in the mustard family) Muntiacus muntjac (its Indian cousin) Myrmecia pilosula (an ant) Parascaris equorum var. univalens (parasitic roundworm) Cambarus clarkii (a crayfish) Equisetum arvense (field horsetail, a plant) 2n n 46 40 20 8 ___ 36 ___ 12 ___ 32 78 10 6 ___ 2 ___ 2 200 216 23 20 ___ 10 ___ 4 18 6 16 ___ ___ 39 ___ 5 3 1 1 ___ ___ 100 ___ 108 Meiosis and Sexual Reproduction Question: What is the difference in the number of cell divisions and the change in chromosome number during mitosis and meiosis? Meiosis and Sexual Reproduction 2n Mitosis Meiosis 2n 2n 2n n n n n n n C. Mitosis VS. Meiosis Mitosis • Produce identical cells • Produce diploid cells • Occurs in: – Plants—stems, leaves, roots – Animals—skin, bones, digestive organs, etc. Meiosis • Produce gametes (sex cells) • Produce haploid cells • Occurs in: – Plants—ovules, spores – Animals—ovules (eggs), sperm V. Genetic Problems Genetic Diseases • http://www.marchofdimes.com/pnhec/4439 _4136.asp A. Pedigrees • Pedigree help determine the inheritance and probability of human genetic disorders. Example Pedigree Generation: Generation: Generation: Generation: B. Karyotype --A picture of the paired chromosomes, arranged in order from largest to smallest. In humans, there are 23 pairs of chromosomes. -22 autosomes (chromosomes that code for regular body traits) -1 sex chromosome Gender is determined by the combination of sex chromosomes inherited in the zygote (the fertilized egg). XX = Female XY = Male *it is the sex chromosome with in the sperm that is the determining factor for gender. Karyotypes • Karyotypes can be obtained by blood samples or by amniocentisis. • Amniocentesis detects or rules out Down's syndrome. Amniocentesis also detects neural tube defects such as spina bifida. Babies born with spina bifida have a backbone that did not close properly. Serious complications of spina bifida can include leg paralysis, bladder and kidney defects, brain swelling (hydrocephalus), and mental retardation. If a pregnancy is complicated by a condition such as rh-incompatibility, your doctor can use amniocentesis to find out if your baby's lungs are developed enough to endure an early delivery. Amniocentesis C. Nondisjunction- the failure of chromosomes to separate properly during meiosis. • Karyotypes can also detect other chromosomal abnormalities such as: – Down’s Syndrome—an extra #21 autosome. – Klinefelter’s Syndrome—an extra sex chromosome – Turner’s Syndrome—a missing sex chromosome