Monohybrid Crosses - PowerPoint PPT Presentation

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Monohybrid Crosses

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Monohybrid Crosses Simple cross Cross two individuals with different alleles at a particular locus Individual may have one or two copies of allele – PowerPoint PPT presentation

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Title: Monohybrid Crosses


1
  • Monohybrid Crosses
  • Simple cross
  • Cross two individuals with different alleles at a
    particular locus
  • Individual may have one or two copies of allele
  • Both copies identical homozygous
  • Different copies heterozygous
  • One allele may be dominant, the other recessive

2
Fig. 14.5
3
Fig. 14.6
4
  • Monohybrid Crosses
  • Testcross
  • Individual with known phenotype but unknown
    genotype
  • Ex Pea with purple flowers homozygous or
    heterozygous?
  • Cross with known homozygous recessive

5
Fig. 14.7
6
  • Dihybrid Crosses
  • Cross two individuals with different alleles at
    two loci
  • If alleles at different loci on non-homologous
    chromosomes, traits should assort independently

7
Fig. 14.8
Why not exactly 9331?
8
  • Dihybrid Crosses
  • Law of Independent Assortment
  • Pairs of alleles segregate independently of other
    pairs of alleles during gamete formation
  • Understanding principles of inheritance permits
    prediction of cross outcomes

9
  • Probability
  • Product Rule
  • Predicts combined probability of independent
    events
  • Probability of multiple independent events all
    occurring is product of probabilities for each
  • Sum Rule
  • Predicts combined probability of mutually
    exclusive events
  • Probability of multiple exclusive events all
    occurring is sum of probabilities for each

10
Fig. 14.9
11
  • Probability
  • Examples
  • Eye color in humans determined by one gene with
    two alleles B (Brown) b (blue)
  • Two parents with brown eyes are heterozygous for
    eye color (Bb)
  • Four children
  • Probability of a child having blue eyes?
  • Probability of child 4 having blue eyes?
  • Probability of all four children having blue
    eyes?
  • Probability of at least one child having blue
    eyes?

12
  • Inheritance
  • Relationship between genotype and phenotype may
    be simple or complex
  • Single pair of alleles may regulate single trait
  • Single pair of alleles may regulate multiple
    traits
  • Multiple alleles collectively may regulate single
    trait
  • Multiple alleles collectively may regulate
    multiple traits
  • Phenotype also may be influenced by environment
  • Complete Dominance
  • Codominance
  • Both alleles expressed independently
  • Ex Reddish-coated stallion x white-coated mare ?
    Roan
  • Incomplete Dominance
  • Intermediate phenotype

13
Fig. 14.10
14
  • Inheritance
  • Multiple Alleles
  • Single individual has two alleles for each locus
  • Population may contain more than two alleles at a
    locus
  • Three alleles at a locus multiple alleles
  • Ex Blood type (three alleles) IA, IB, i

15
Fig. 14.11
16
  • Inheritance
  • Pleiotropy
  • Single gene may affect multiple traits
  • Single gene products may affect many cells or
    cell types in different ways
  • Ex Cystic fibrosis, sickle cell disease
  • Epistasis
  • Presence of certain alleles at one locus can
    alter expression of alleles at different locus
  • Ex Coat color in dogs
  • Color regulated by one allele pair (B Black, b
    brown)
  • Second allele pair (E active, e inactive)
    regulates deposition of color in hair
  • EE and Ee dogs are pigmented, ee dogs are yellow
  • Gene for pigment deposition is epistatic to gene
    that codes for Black or brown pigment

17
Fig. 14.12
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