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History of Genetics Genetic Terminology Test Crosses Predicting Inheritance.

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Presentation on theme: "History of Genetics Genetic Terminology Test Crosses Predicting Inheritance."— Presentation transcript:

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2 History of Genetics Genetic Terminology Test Crosses Predicting Inheritance

3 Gregor Mendel (1822-1884) – an Austrian monk Father of “modern genetics” His work was published in 1866, but did not become popular until 1900s. Mendel made three major discoveries: a. characters/traits are governed by paired but individual “factors” (genes) b. these “factors” may be dominant or recessive, and c. the “factors” combine to produce characteristic ratios in the later generations

4 He worked with PEAS because: They are easy to grow Have many simple traits that distinguish strains of pea plants from each other This includes:  Height - short or TALL  Seed colour – green or YELLOW  Seed shape - wrinkled or ROUND  Seed coat colour - white or GRAY  Pod shape - constricted or SMOOTH  Pod colour - yellow or GREEN  Flower position - terminal or AXIAL  Flower colour – white or PURPLE

5 We will focus on these three (3) traits for our discussion  Height - short or TALL  Seed colour – green or YELLOW  Seed shape - wrinkled or ROUND  Seed coat colour - white or GRAY  Pod shape - constricted or SMOOTH  Pod color - yellow or GREEN  Flower position - terminal or AXIAL  Flower colour – white or PURPLE

6 Phenotype – physical characteristics, visible traits that can be identified or compared eg. Facial structures: eye, nose, smile, presence/absence of dimple Genotype – genes we (the offspring) inherit from the parents; constitutes genetic make-up of an individual Allele – variant of a gene (mom’s vs. dad’s) eg. Eye-colour-determining gene; Height gene Homozygous – when the two alleles are identical (eg. BB, yy) Heterozygous – when the two alleles are different (eg. Bb, Vv) Brown eyes Tall Brown eyes Blue eyes Tall Short

7 Dominant – when the phenotype of an allele is observable in a heterozygous condition Recessive – when the phenotype of an allele is NOT visible in a heterozygous condition Dominant: represented by a CAPITAL letter Recessive: represented by a small letter P generation (parental) F 1 generation (first filial): the children of P F 2 generation (second filial): the grandchildren of the P generation

8 Mendel’s experiments with Pea plants required him to pollinate flowers:  this refers to as: crossing (fertilizing the flower’s reproductive organ)

9 Mendel’s experiments with Pea plants required him to pollinate flowers:  this refers to as: crossing (fertilizing the flower’s reproductive organ) To make sense of his observations, Mendel would need to know the genotype/allele of the experimental plants (eg. Heterozygous or homozygous) Q: How would you determine if the plant has the following alleles? a) TT (homozygous dominant) b) Tt (heterozygous) c) tt (homozygous recessive)  you cannot rely on the phenotypes alone A: Crossing an individual of unknown genotype with a homozygous recessive individual  Offspring will exhibit certain phenotypes that will allow you to determine if unknown is homozygous or heterozygous dominant  Tall  short

10 Example: A test cross is performed on a white ram whose genotype is unknown (WW or Ww) with a black ewe (ww) WW or Ww ww X

11 If any offspring show the recessive trait, then the individual must be heterozygous  If all offspring show the dominant trait, then the individual must be homozygous

12 For example: T = the gene for TALL in pea plants t = the gene for short in pea plants So: TT & Tt both result in a TALL plant, because T is dominant over t. t is recessive. tt will result in a short plant. Remember there are two genes for every trait! One from each parent.

13 So after you perform the test Cross to make sure of their genotypes Let’s cross a totally dominant tall plant (TT) with a short plant (tt). Each plant will give only one of its’ two genes to the offspring or F 1 generation. TT x tt TTtt Mendels’ “Law” of Segregation Each gene (allele) separates from the other so that the offspring get only one gene from each parent for a given trait.

14 The genes from one parent go here. The genes from the other parent go here.

15 TT t t

16 TT t t t t

17 TT t t t t t t

18 TT t t t t t t TT

19 TT t t t t t t TT T T

20 TT t t t t t t TT T T F1: Generation

21 The genotype for all the offspring is Tt. The genotype ratio is: Tt: 4/4 The phenotype for all the offspring is tall. The phenotype ratio is: Tall: 4/4

22 Tt T?? t

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