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Genetics: The Science of Heredity
Chapter 3 Sections 1-2
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Mendel’s Peas Gregor Mendel: Young priest Gardener
Studied math and Science in Vienna
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Mendel’s Peas Curious why some plants had different characteristics.
Observed that traits were similar to parents Traits: physical characteristics of an organism Heredity: passing of traits from parents to offspring
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Mendel’s Peas Peas are easy to study
Have many traits that show in 2 forms Stems: tall or short Produce large number of offspring in one generation Self pollinating Pollen of one plant lands on the pistil of the same plant.
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Mendel’s Peas Mendel devised a way to “cross pollinate” plants.
Used a paint brush to take pollen from one plant and brush it on the pistil of another.
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Mendel’s Experiment Crossed plants with opposite traits Started with purebreds Short plants always produced short plants Allowed peas with one trait to self pollinate for several generations (purebred) Purebred: plant that always produces off spring with the same form of a trait as parent
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Mendel’s Experiement First experiment
Crossed tall pea plants with short pea plants P generation (parents) Offspring F1 Generation (filial)
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Mendel’s Experiment F1 Generation
All Tall Crossed these plants- offspring F2 Generation Mix of tall and short plants
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Other Traits
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Dominant and Recessive Alleles
Factors that control traits occur in pairs. Female contributes one trait and the male the other Individual alleles control inheritance Some are dominant and others are recessive Gene- factors that control traits Alleles- different forms of a gene Dominant alleles- traits that always show up when the allele is present Recessive alleles- traits masked when recessive allele is present
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Dominant and Recessive Alleles
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Mendel’s Crosses Purebred plants have two identical alleles
Hybrid plant have two different alleles
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Using Symbols in Genetics
Standard shorthand method Capital letter represents dominant alleles Lower case letter represents recessive alleles
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Punnett Square Cross between two hybrids
Show possible outcomes of a genetic cross
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Probability and Genetics
The likelihood that a particular event will occur Principles of Probability Coin toss Heads and tails- 1 in 2 chances of either happening or 1:2 or ½ or 50% Toss a coin 20 times You would expect it to be heads or tails 10 times Did that happen?
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Mendel and Probability
The first to recognize that the principles of probability can be used to predict the results of genetic crosses. He used Punnett Squares to show this F1 was always tall- 100% F2 was 75% tall and 25% short
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Phenotype and Genotype
The physical appearance, or visible traits Genetic makeup, or allele combinations
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Codominance Alleles are neither dominant or recessive.
Both alleles are expressed in the offspring See page 92-93
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