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KEY CONCEPT Mendel’s research to what we know about genetics today

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Presentation on theme: "KEY CONCEPT Mendel’s research to what we know about genetics today"— Presentation transcript:

1 KEY CONCEPT Mendel’s research to what we know about genetics today
Genetics: study of inheritance patterns and variation. “Father of Genetics”

2 Mendel’s data laid the groundwork for genetics.
Gregor Mendel showed that traits are inherited as discrete units. (without knowing about DNA) Mendel made three key decisions in his experiments. used purebred plants controlled breeding observed seven “either-or” traits

3 Mendel used pollen to fertilize selected pea plants
P generation was crossed to produce F1 generation interrupted the self-pollination process by removing male flower parts so he could control the traits through pollination to create purebred plants. Mendel controlled the fertilization of his pea plants by removing the male parts, or stamens. He then fertilized the female part, or pistil, with pollen from a different pea plant.

4 Mendel observed patterns in the first and second generations of his crosses.

5 (Mendel’s Three Principles)
Mendel drew three important conclusions (Mendel’s Three Principles) Dominant vs. Recessive Organisms inherit two copies of each gene, one from each parent. purple white In many cases, one allele is dominant (or expressed) while the other is recessive (or masked)

6 Mendel’s 3 Principles (continued)
2. Segregation When meiosis makes sex cells, each cell has only one allele Independent Assortment Each trait is passed on independent of other traits (creates variety!) Ex: pod color green and seed color yellow

7 Basic Genetics Vocabulary
Chromosome DNA in coiled form Gene Segment of DNA Contains code for one trait Occur in pairs (one from each parent) Allele -Any alternative form of a gene that may occur at a specific gene locus (point)

8 Basic Genetics Vocabulary (continued)
Genome - all of an organism’s genetic material Genotype Genetic makeup (the letters) Example: GG, Gg, or gg Phenotype Physical makeup (description) Example: green or yellow pea Homozygous alleles: GG = homozygous dominant gg = homozygous recessive Heterozygous alleles: Gg G = green pea g = yellow pea

9 More info on vocabulary
Some alleles are dominant over others Therefore, 2 genotypes can produce the dominant phenotype Homozygous dominant (GG) & heterozygous (Gg) both produce green peas

10 Punnett Squares The Punnett square predicts the probability of traits in offspring IF you know the genotype of the parents.

11 The chances of an event happening
Probability The chances of an event happening May be expressed as a ratio, fraction, decimal, or percent Example Ratio: 1:2 Fraction: ___ Decimal: ___ Percent: ___

12 A Monohybrid cross examines one trait.
Example: Both parents are heterozygous Genotypic Ratio: Phenotypic Ratio:

13 Heredity patterns can be calculated with probability.
Probability is the likelihood that something will happen. Probability = number of ways a specific event can occur number of total possible outcomes The more data you have, the closer the actual occurrence will be to the predicted occurrence.

14 7.2 Codominance or Incomplete Dominance
In some traits, neither allele is dominant Example: Japanese four o’clock flowers (incomplete dominance) white, red, pink Notation: White Red Pink WW RR WR (pink) FwFw FRFR FwFR(red & white) –for incomplete dominance phenotype is between dominant & recessive (pink flowers) -for codominance, both traits are expressed (flowers will have red areas & white areas)


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