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Section 2: Mendel’s Theory

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1 Section 2: Mendel’s Theory
Preview Bellringer Key Ideas Explaining Mendel’s Results Random Segregation of Alleles Mendel’s Findings in Modern Terms Mendel’s Second Experiments Summary

2 Bellringer A gardener noticed that some of the flowers on her plants were white. In previous years, they had been purple. Write down a possible explanation for this difference.

3 Key Ideas What patterns of heredity were explained by Mendel’s hypotheses? What is the law of segregation? How does genotype relate to phenotype? What is the law of independent assortment?

4 Explaining Mendel’s Results
Mendel developed several hypotheses to explain the results of his experiments. These hypotheses are collectively called the Mendelian theory of heredity and form the foundation of modern genetics. Mendelian theory explains simple patterns of inheritance. In these patterns, two of several versions of a gene combine and result in one of several possible traits. Different traits result from different versions of genes. Each version of a gene is called an allele.

5 Visual Concept: Allele
Click above to play the video.

6 Explaining Mendel’s Results, continued
Each allele can lead to a unique trait. Traits can come from either parent because each pair of alleles is separated when gametes form during meiosis. Only one of the pair is passed on to offspring.

7 Alleles

8 Explaining Mendel’s Results, continued
An allele that is fully expressed whenever it is present is called dominant. An allele that is not expressed when a dominant allele is present is called recessive. A recessive allele is expressed only when there is no dominant allele present. Traits may also be called dominant or recessive.

9 Visual Concept: Comparing Dominant and Recessive Traits
Click above to play the video.

10 Random Segregation of Alleles
Because chromosome pairs split randomly during meiosis, either one of a pair of homologous chromosomes might end up in any one gamete. Chance decides which alleles will be passed on. In modern terms, the law of segregation holds that when an organism produces gametes, each pair of alleles is separated and each gamete has an equal chance of receiving either one of the alleles.

11 Mendel’s Findings in Modern Terms
Scientists use a code of letters to represent the function of alleles. A dominant allele is shown as a capital letter. This letter usually corresponds to the first letter of the word for the trait. A recessive allele is shown as a lowercase letter. Offspring do not show a trait for every allele that they receive. Instead, combinations of alleles determine traits.

12 Mendel’s Findings in Modern Terms, continued
The set of specific combinations of alleles that an individual has for a character is called the genotype. The detectable trait that results from the genotype’s set of alleles is called the phenotype. Thus, genotype determines phenotype.

13 Visual Concept: Genotype
Click above to play the video.

14 Visual Concept: Comparing Genotype and Phenotype

15 Mendel’s Findings in Modern Terms, continued
If an individual has two identical alleles of a certain gene, the individual is homozygous for the related character. If an individual has two different alleles of a certain gene, the individual is heterozygous for the related character.

16 Visual Concept: Comparing Homozygous and Heterozygous Genotypes and Resulting Phenotypes

17 Mendel’s Second Experiments
A dihybrid cross involves two characters, such as seed color and seed shape. Mendel used dihybrid crosses in his second experiments and found that the inheritance of one character did not affect the inheritance of another character. In modern terms, the law of independent assortment holds that during gamete formation, the alleles of each gene segregate independently.

18 Dihybrid Crosses

19 Mendel’s Second Experiments, continued
Genes are said to be linked when they are close together on chromosomes. Scientists now know that many genes are linked to each other as parts of chromosomes. Genes that are located close together on the same chromosome will rarely separate independently. The only genes that follow Mendel’s law of independent assortment are those that are far apart.

20 Summary Mendelian theory explains simple patterns of inheritance. In these patterns, two of several versions of a gene combine and result in one of several possible traits. In modern terms, the law of segregation holds that when an organism produces gametes, each pair of alleles is separated and each gamete has an equal chance of receiving either one of the alleles. Genotype determines phenotype.

21 Summary, continued In modern terms, the law of independent assortment holds that during gamete formation, the alleles of each gene segregate independently.

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