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Genetic Mapping (Chapt. 5). Basic Principles. Genes, RFLPs, SNPs Meiosis, Independent Assortment, Linkage and Crossing Over. Genetic Mapping in Experimental Organisms. Two- and Three-point crosses Complementation Analysis. Genetic Mapping in Humans. Pedigree Analysis. Gametes - PowerPoint PPT Presentation
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Genetic Mapping (Chapt. 5)
Basic Principles
Genetic Mapping in Experimental Organisms
Genetic Mapping in Humans
Genes, RFLPs, SNPsMeiosis, Independent Assortment, Linkage and Crossing Over
Two- and Three-point crossesComplementation Analysis
Pedigree Analysis
Fig. 2-8Gametes(haploid cells)
Crossing Over Occurs Between DNA of Homologous Chromosomes
Paternal
Maternal
PairedHomologousChromosomes
A
A
a
a
b
b
B
BaB
Ab
Genetic Map of Drosophila
Fig. 5-14
Drosophila melanogaster (Fruit Fly)
Drosophila melanogaster (Fruit Fly)
Phenotypes• eye color• body color• wing shape• antenna length• bristle pattern
Gene NameRecessive Allele
Dominant Allele (WT)
Curled Wings
Sepia Eyes sese+
Striped Body
Javelin Bristles
cucu+
jvjv+
srsr+
Single Crossover (SCO)
Paternal
Maternal
PairedHomologousChromosomes
Double Crossover (DCO)
PairedHomologousChromosomes
Paternal
Maternal
DCO Products
Pedigree for Inheritance of Blood Type and Nail-Patella Syndrome
GelElectrophoresis
Pedigree for Mapping of HD and a DNA Marker
I
GelElectrophoresis
I
II
Pedigree for Mapping of HD and a DNA Marker
February 2007
1168 Family Pedigrees with at least two individuals with Autism Spectrum Disorder
M LASD
~ 2 cM
orf1 orf2 orf3 orf4
~ 500,000 bp
Band11q13
Chromosome 11
Neurexin Proteins
Population Genetics (Chapter 27)
Mendelian Genetics Applied to Populations
The Hardy-Weinberg Equation (p2 + 2pq + q2)
Test populations for microevolutionMutation rate in humansEstimate frequency of carriers for recessive genetic disordersAssess effect of natural selection on microevolutionAssess effect of inbreedingDNA Profiling (“DNA fingerprinting”)
HIV-1 Structure
(Gp120)
HIV Infection Pathway
HIV-1
Gp120
Cytosol
Extra-cellularSpace
Membrane
CCR5
CD4
HIV Infection Pathway
Protein encodedby CCR5-1 allele(CCR5-1 / CCR5-1 or CCR5-1 / CCR5-∆32)
HIV-1
Gp120
Cytosol
Extra-cellularSpace
Membrane
CCR5
CD4
CCR5 RFLP
CCR5-1
CCR5-∆32
CCR5 Genotype Analysis
Fig. 25-3
CCR5-∆32 Allele Frequency
Fig. 25-4
Assumptions of the Hardy-Weinberg Equation
1. Individuals of all genotypes have equal rates of survival and reproductive success (no selection).
2. No new alleles are created or converted from one allele toanother by mutation.
3. Individuals do not migrate into or out of the population(no gene flow).
4. The population is infinitely large (no genetic drift).
5. Individuals in the population mate randomly (no inbreeding)
Page 713
Fibroblast Growth Factor 3 (FGFR3) Receptor
GA
C(Gly to Arg)Achondroplasia Mutations:
FGFR3 Signal Transduction Pathways
DELAYED LYSOSOMAL DEGREDATION
FGFR3 Signal Transduction Pathways
Fig. 27-7
Effect of Selection on Allele Frequency
Fig. 27-8
Changes in CCR5-∆32 Allele Frequency
VNTR-DVNTR-CVNTR-B VNTR-E VNTR-FVNTR-A
Chromosome 7
GTCTAG GTCTAG GTCTAG GTCTAG CAGATC CAGATC CAGATC CAGATC
Tandem Repeat Locus
(a.k.a VNTR, STR, Microsatellite)
VNTR-DVNTR-CVNTR-B VNTR-E VNTR-FVNTR-A
7M
7P
GTCTAG GTCTAG GTCTAGCAGATC CAGATC CAGATC
GTCTAG GTCTAG GTCTAG GTCTAG CAGATC CAGATC CAGATC CAGATC
7M
7P
Fig. 22-27
RFLP Analysis of VNTR Loci
