Chapter 4 Mendel’s Work Section 1 I can… explain basic patterns of inheritance Warm up- how much of your DNA comes from your mother? How much from your father? Wrap up: What is the difference between a dominant and recessive trait? Gregor Mendel Mid nineteenth century Priest named Gregor Mendel Worked in a garden at a monastery Heredity: the passing of physical characteristics from parents to offspring Why do pea plants have different characteristics? Traits: physical characteristics Examples: stem height (tall or short), seed color (green or yellow) Pea plant TRAITS were often similar to those of their parents and sometimes they were different His studies laid the foundation for GENETICS– the scientific study of heredity Mendel’s Experiments The flower’s petals surround the pistils and the stamens Pistil: produces female sex cells, or eggs Stamen: produce pollen, which contains male sex cells, or sperm Fertilization: new organisms can form when the egg and the sperm join in this process Self-Pollinating Pea plants are usually self-pollinating Pollen from a flower lands on a pistil of the same flower Cross-Pollinating “crossed” Mendel removed pollen from a flower on one plant, then brushed the pollen onto a flower on a second plant Crossing Pea Plants How are you going to study the inheritance of traits in pea plants? Mendel decided to “cross” plants with contrasting traits Example: He tall plants with short plants started with purebred plants Purebred: an organism is the offspring of many generations that have the same trait The F1 and F2 Offspring Mendel crossed purebred tall plants with purebred short plants ---This is called the parental generation, or the P generation F1 offspring are all tall ---The offspring from this cross are the first filial generation, or the F1 generation He then allowed for the F1 offspring to selfpollinate F2 offspring are tall and short ---The offspring from this cross are the second filial generation, or the F2 generation Results of a Cross F1 generation (both tall) P generation (one tall, one short) F2 generation (mix of tall and short) What other traits did Mendel study? Pod color, seed shape, flower position What were the two forms of the seed shape? Round and wrinkled Genes and Alleles Genes: factors that control a trait Alleles: different forms of a gene An organism’s traits are controlled by alleles it inherits from its parents. Some alleles are dominant, while others are recessive Dominant Alleles vs. Recessive Alleles Dominant Allele: an allele whose trait always shows up in the organism when the allele is present Recessive Allele: an allele that is masked when a dominant allele is present Let’s do some math…. Examples for Stem Height One recessive allele + one dominant allele = dominant traits (tall stem) One recessive allele + one recessive allele = recessive traits (short stem) Alleles in Mendel’s Crosses Combination of Alleles: Hybrid tall--- one allele for tall stems and one allele for short stems Purebred tall--- two alleles for tall stems Purebred short--- two alleles for short stems Symbols for Alleles Geneticists use letters to represent alleles Dominant allele is represented by a capital letter Example: tall stems = T Recessive allele is represented by a lowercase letter Example: short stems = t 2 dominant alleles for tall stems = TT 2 recessive alleles for short stems = tt 1 recessive allele for short stems and 1 dominant allele for tall stems = Tt Significance of Mendel’s Contribution The importance of Mendel’s discovery was NOT recognized during his lifetime Then, in 1900, three scientists discovered his work They quickly realized the importance of his work Mendel is often called the Father of Genetics