Notes: Mendelian Genetics

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Transcription:

Notes: Mendelian Genetics

Heredity is passing characteristics from one generation to the next. Genetics is the study of heredity.

Who was Gregor Mendel? Gregor Mendel is the Father of Modern Genetics. He was an Austrian monk who studied heredity in pea plants. His work was published in 1865. He described factors that were passed between generations of plants. We now know the factors are genes: chemical factors that determine characteristics.

Mendel observed true-breeding pea plants produced genetically identical offspring. ex. Tall plants produced tall offspring, short produced short. True-breeding plants self-pollinate. (have both male and female parts)

Mendel s Peas Mendel studied seven different traits in pea plants. -Traits are inherited characteristics that vary from individual to individual. oeach trait each had two different forms or alleles. opea plant height can be either tall (T) OR short (t).

Mendel s Peas Homozygous means to have 2 identical alleles for a trait. Ex. TT or tt True-breeding pea plants are homozygous. Heterozygous means to have 2 different alleles for a trait. Ex. Tt Hybrid plants are heterozygous.

Generations of Pea Plants P = Parent generation = your parents F1 = First generation offspring. = you Produces hybrids = crosses between parents with different traits (Tall x short) (TT x tt) F2 = Second generation offspring. = your kids Formed from hybrid x hybrid. (Tt x Tt) (F1 x F1)

Mendel s Experiment: TT x tt Question: True-breeding tall x true breeding short? (P generation) Hypothesis: Mendel expected medium-sized plants in F1 generation. Method: He cross-pollinated plants, taking pollen from one flower onto another. Results: F1 generation = hybrid generation All plants were TALL, not medium as expected.

Genotypic ratio (genetic makeup): 0TT: 4 Tt : 0 tt Mendel s Experiment: Phenotype (physical appearance): 4 Tall : 0 short Conclusion: Principle of Dominance: some alleles are dominant and others are recessive TT x tt T T t Tt Tt t Tt Tt

Principle of Dominance Dominant traits are expressed if only one allele is present. (capital letter, first letter of trait ex. Tall= T) Ex - Tall allele (T) is dominant and short allele is recessive (t) F1 generation = All plants were tall even though Tt both TT and Tt plants are Tall

Principle of Dominance Recessive traits are expressed when the dominant allele not present. Two alleles are needed for the recessive trait to be expressed. (lower case letter) Ex from pea plants- short allele is recessive (t) Only tt plants are short.

Principle of Dominance The Principle of Dominance explains why genotype differs from phenotype. Genotypes for plant height are TT, Tt, tt. Genotypes can be heterozygous or homozygous. Phenotypes for plant height are tall or short. TT and Tt genotypes both expressed the tall phenotype because the T is dominant to t. Only the tt genotype expressed the short phenotype.

Mendel s Experiment: Tt x Tt Question: Have the recessive alleles disappeared? T t Hypothesis: The F2 generation will be all tall plants. T TT Tt t Tt tt Method: F1 x F1 Tt x Tt = Mendel allowed the hybrids to self-pollinate

Mendel s Experiment: Tt x Tt Result: F2 Generation genotypic ratio: 1 TT : 2 Tt : 1 tt phenotypic ratio: 3 tall: 1 short T t T TT Tt t Tt tt The recessive alleles reappeared and were expressed.

Mendel s Experiment: Tt x Tt Conclusion: Principle of Segregation: 2 alleles for a trait separate during meiosis. Each gamete receives only one allele. -The alleles are on separate homologous chromosomes. T and t separated (segregated) during meiosis, and each gamete received only T or t.

Principle of Segregation During fertilization, a t gamete fertilized a t gamete 1/4 of the time, resulting in tt short plants. This accounts for new combinations of alleles that were not present in either parent.

Principle of Segregation

Principle of Segregation

Punnett Squares A Punnett square is a diagram that predicts outcomes of genetic crosses. use dominance to determine phenotype from genotype Ex. #1 In humans, having dimples is dominant to not having dimples. Predict the genotypic and phenotypic ratios of a cross between a man heterozygous for dimples and a woman without dimples. D = dimples d = no dimples

Equation: Dd x dd Genotypic ratio: 0DD: 2 Dd: 2 dd D d d Dd dd d Dd dd Phenotypic ratio: 2 dimples: 2 no dimples

Link: Mendel Rap Lryics: The answer s in my garden where I ve planted different peas And sprinkled pollen as I pleased then counted out the progeny. What did you discover in your garden with your peas? About those factors we can t see but which explain our family trees? Here s the news. They come in two s. They separate. It s up to fate. If an egg or a sperm has a trait that will dominate. And when they join together, my forecasting s most impressive. Bet you, three times out of four I m right unless they re both recessive. But where these hidden factors are well that I cannot fathom.

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