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Classical Genetics

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Classical Genetics The Legacy of Gregor Mendel Or The Monk with the Missing Peas – PowerPoint PPT presentation

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Title: Classical Genetics


1
Classical Genetics
  • The Legacy of Gregor Mendel
  • Or
  • The Monk with the Missing Peas

2
The Big Question
  • Why do children look like their parents?

3
Who was Gregor Mendel?
  • Father of Genetics
  • Studied pea plants for eight years
  • Published his results in 1865
  • Grew over 10,000 pea plants, keeping track of
    progeny number and type.

4
Father of Genetics
  • 1st person to succeed in predicting how traits
    are passed from one generation to next

5
Why is he so important?
  • Studied one trait at a time
  • Analyzed his data mathematically
  • Looked at multiple traits
  • Used multiple trials

6
Why peas?
  • Quick growing
  • Lots of different traits

7
Step 1 Start with pure-bred plants
  • Pure-bred plants only produce one type of
    offspring
  • Green pea plants only make green offspring
  • Yellow pea plants only make yellow offspring

8
Step 2 The First Generation
  • Mendel chose true-breeding pea plants as his
    parental generation (when self-pollinated, always
    produced the same type of offspring)
  • He crossed a true-breeding tall plant with a
    true-breeding short plant
  • All of the offspring were tall!

9
Step 3 The Second Generation
  • Next, he crossed two tall offspring plants with
    each other
  • ¾ of the offspring in the second generation were
    tall ¼ were short

10
So how does this pea thing work?
  • DNA from the Beginning

11
The Second Generation, cont.
  • Mendel did similar monohybrid crosses with the
    other traits as well.
  • In every case, he found that one trait seemed to
    disappear in the F1 generation and reappear in ¼
    of the F2 plants
  • This is where dominant and recessive come from

12
Conclusion Law of Segregation
  • Each parent has 2 genes that determine each trait
  • Each parent can only give one of its two genes
    for each trait
  • Therefore, these two genes must randomly separate
    to the sex cells so that sex cells contain only
    one gene of the pair.

13
Step 4 Mendels Dihybrid Crosses
  • Performed another set of crosses where he used
    peas that differed from each other in two traits
    rather than just one

14
The first generation
  • Took true-breeding pea plants that had round
    yellow seeds (RRYY) and crossed them with
    true-breeding pea plants that had wrinkled green
    seeds (rryy).
  • The F1 plants all had round yellow seeds

15
Step 5 The second generation
  • F1 plants self-pollinated
  • F2 plants
  • 9 round yellow
  • 3 round green
  • 3 wrinkled yellow
  • 1 wrinkled green

16
Conclusion The Law of Independent Assortment
  • Genes for different traits are inherited
    independently of each other
  • When a pea plant with the genotype RrYy produces
    gametes, the alleles R and r will separate from
    each other (the law of segregation) as well as
    from the alleles Y and y and vice versa
  • Alleles can then recombine in four different ways
    (see next slide)
  • We now know that this is only true if genes are
    located on different chromosomes or are far apart
    on the same chromosome

17
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18
Testcross
  • A cross of an individual of unknown genotype with
    an individual of a known genotype (usually
    homozygous recessive)
  • Unknown R_ x rr
  • If any offspring show the recessive phenotype,
    then the unknown parent must have been
    heterozygous

19
Pedigrees
  • A graphic representation of an individuals
    family tree, which permits patterns of
    inheritance to be recognized.

20
When are pedigrees used?
  • When testcrosses cannot be made
  • When number of offspring is too small
  • Or if results of testcross would take too long
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