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Mendelian Genetics

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Mendelian Genetics Gregor Mendel Mendel made several wise decisions: a. choice of peas good: easy to grow and cross b. peas were cultivated and bred for a long time ... – PowerPoint PPT presentation

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Title: Mendelian Genetics


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Mendelian Genetics
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Gregor Mendel
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Mendel made several wise decisions
  • a. choice of peas good easy to grow and crossb.
    peas were cultivated and bred for a long time
    lots of variations (mutations) to work with c.
    peas are self pollinating and easy to pollinate
    by hand
  • d. used true breeding plants, i.e. ones that
    showed a constant trait when self-pollinatede.
    Mendel followed the inheritance of each trait
    individuallyf. Mendel used statistics
    (probability) to interpret his results

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  • A cross involving pea plants with green vs.
    yellow pods
  • Green X Yellow ---gt all Green Parental
    F1 generationGreen X Green (self) -----gt 3
    Green for
  • every
    1 Yellow F1 generation F2
    generation
  • Mendel got a 31 ratio by counting the number of
    plants that were Green (428) vs. Yellow (152).
    428/152 2.811 or essentially 31.

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  • Factor Gene
  • Dominant
  • Recessive

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  • Mendel used the terms dominant and recessive for
    the behavior of traits that stayed constant
    through crossing or dissappeared and reappeared
    in the F2 generation.
  • Mendel's results contradicted the popular theory
    of the day that traits blended
  • Mendel's Law of Segregation of gene "Each
    organism contains two factors for each trait
    which separate during gamete formation so that
    each gamete contains only one factor. When
    fertilization occurs, the new organism will have
    two factors for each trait, one from each
    parent". Remember, Mendel knew virtually nothing
    about cytology (chromosomes) and meiosis!! We now
    know his factors represent genes that occur on
    homologous chromosomes that segregate during
    meiosis I.

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  • Abbreviations
  • P parental generation,
  • F1 first filial generation,
  • F2 second filial generation
  • Allele A, a
  • Locus
  • Dominant alleles
  • Recessive alleles
  • Homozygous AA, aa
  • Heterozygous At

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  • Mendel's Crossing Experiments
  • A. Monohybrid cross follow the results of a
    cross between two parents that differ for a
    true-breeding trait.

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Modern Genetic Terminology to Explain Mendel's
Results
  • A. Genes and homologous chromosomes
  • 1. As we have learned, diploid organisms (like
    peas) have two sets of chromosomes (onefrom the
    male, one from the female) and these are called
    homologous chromosomes

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  • 2. At equivalent positions on these chromosomes
    exist genes. The location of these "gene pairs"
    is called the locus.
  • 3. Alternate forms of the gene (ones that differ
    by mutations in the DNA) are called alleles.
  • 4. Dominant traits we now know are the same as
    dominant alleles, recessive traits are the same
    as recessive alleles. Dominant usually capital
    letter (here G, R, S, Z) and recessive lower case
    letters (here g, r, s, z)

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  • B. True-breeding traits exist when the organism
    has two dominant alleles (e.g. TT) or two
    recessive alleles (tt). These organisms are
    termed homozygous for that gene or those alleles.
  • C. The F1 individuals above that resulted from a
    cross between tall and short pea plants have both
    a dominant (T) allele and a recessive (t) allele.
    These organisms are termed heterozygous for that
    gene or those alleles.
  • D. Phenotype the outward appearance of the
    organisms (i.e. the physical trait that we see,
    e.g. tallness). Genotype the allelic complement
    of the organism, often represented by letters,
    e.g. the genotype TT is called the homozygous
    dominant condition, tt is the homozygous
    recessive, and Tt is the heterozygous condition

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  • Law of independent assortment

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  • Punnett square
  • Y(RY) Y(rY)
  • R r
  • y (Ry) y (ry)
  • 1/4(RY), 1/4(Ry), 1/4(rY), 1/4(ry)

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  • Probability

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Multiple alleles
  • b black ( mutant) recessive
  • b brown (wild type) dominant
  • B bar eye (mutant) dominant
  • B normal eye (wild type) recessive

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Agouti (brown)
Chinchilla (light brown)

Himalayan (white)
Albino (all white)
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  • Ag x C Ag x H Ag x Al
  • F1 Ag Ag Ag
  • F2 Ag 3 Ag 3 Ag 3
  • C 1 H 1 Al 1

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C x H C x Al H x Al F1
C C H F2 C 3
C 3 H 3 H 1
Al 1 Al 1
CgtCchgtChgtC
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Phenotype Genotype
Agouti Chinchilla Himalayan albino C C, CCch, CCh, CC CchCch, Cch Ch, CchC Ch Ch, ChC CC
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Blood type Antigen Antibody
A B AB O A B A and B - Anti-B Anti-A - Anti-A and B
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SEX-LINKAGE
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