Blending hypothesis Originally, organisms were thought to be a blend of their parents’ characteristics. Pure-breeds were defined as organisms that looked identical to their parents, and they looked like their parents, etc. So now, using these two pieces of information, pretend you are a young scientist in the early 1800’s. You cross a purebred red flowering plant with a purebred white flowering plant. What do you expect to find?
THE ACTUAL RESULTS…
Mendelian Genetics
Father of Modern Genetics Austrian monk, high school teacher, and part-time garden keeper First to propose biological inheritance of traits Work not recognized until after his death Knew nothing about DNA
Why pea plants? It’s what he had Pea plants are true breeding Gregor noticed that one stock of seed would produce only tall plants and another only short plants
P generation Cross-pollination Next, Mendel wanted to find out if the recessive alleles had disappeared, orif were they still present in the F1 generation.
VOCAB BREAK…
Traits Genes Alleles Genotype Phenotype
Segregation Mendel crossed the F1 generation with itself He found that the recessive traits reappeared in some of the F2 generation He proposed this was due to two things: the principle of dominance and segregation of alleles during formation of gametes
Probability Mendel categorized and counted the many offspring of each of his experiments. He noticed that each time he repeated a particular cross he obtained similar results. For example: Every time he crossed two plants that were heterozygous for stem height (Tt), about ¾ of the offspring were tall and ¼ were short.
Probability and Punnett Squares Punnett squares are used to predict this probability Monohybrid crosses can be performed to determine probability of genotype for one particular trait
Genotypes AA Aa aa Homozygous Dominant Heterozygous Homozygous Recessive
Law of Segregation Mendel crossed the F1 generation with itself He found that the recessive traits reappeared in some of the F2 generation He proposed this was due to two things: the principle of dominance and segregation of alleles during formation of gametes
Law of Independent Assortment Genes that segregate independently do not influence each other’s inheritance