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Polymorphism Structure of the Human Genome Gabor T. Marth Department of Biology Boston College Chestnut Hill, MA 02467.

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Presentation on theme: "Polymorphism Structure of the Human Genome Gabor T. Marth Department of Biology Boston College Chestnut Hill, MA 02467."— Presentation transcript:

1 Polymorphism Structure of the Human Genome Gabor T. Marth Department of Biology Boston College Chestnut Hill, MA 02467

2 Human variation structure is heterogeneous chromosomal averages polymorphism density along chromosomes

3 Heterogeneity at the level of distributions “sparse” “dense” marker density “rare” “common” allele frequency

4 What explains nucleotide diversity? G+C nucleotide content CpG di-nucleotide content recombination rate functional constraints 3’ UTR5.00 x 10 -4 5’ UTR4.95 x 10 -4 Exon, overall4.20 x 10 -4 Exon, coding3.77 x 10 -4 synonymous 366 / 653 non-synonymous287 / 653 Variance is so high that these quantities are poor predictors of nucleotide diversity in local regions hence random processes are likely to govern the basic shape of the genome variation landscape  (random) genetic drift

5 Components of drift: Genealogy present generation randomly mating population, genealogy evolves in a non- deterministic fashion

6 Components of drift: Mutation mutation randomly “drift”: die out, go to higher frequency or get fixed

7 Modulators: Changing population size mutation randomly “drift”: die out, go to higher frequency or get fixed genetic bottleneck

8 Modulators: Population subdivision subdivision subdivision promotes private polymorphisms, and skews allele frequency

9 Modulators: Recombination accgttatgcaga acagttatgtaga acagttatgcaga accgttatgtaga accgttatgcagaacagttatgtaga recombination different nucleotide sites within the same DNA segment no longer share the same genealogy

10 Modulators: Natural selection negative (purifying) selection positive selection the genealogy is no longer independent of (and hence cannot be decoupled from) the mutation process

11 Modeling ancestral processes “forward simulations” the “Coalescent” process By focusing on a small sample, complexity of the relevant part of the ancestral process is greatly reduced. There are, however, limitations.

12 Inferences from variation data larger population size (N) -> more mutations -> higher diversity (θ) larger mutation rate (μ) -> more mutations -> higher diversity (θ) higher diversity -> larger population size OR higher mutation rate (θ = 4Nμ)

13 Ancestral inference: modeling past present stationaryexpansioncollapse MD (simulation) AFS (direct form) history bottleneck

14 Ancestral inference: model fitting bottleneck modest but uninterrupted expansion

15 Allelic association accgttatgcaga acagttatgtaga acagttatgcaga accgttatgtaga possible allele combinations (2-marker haplotypes) higher recombination rate (r)

16 Allelic association: LD measure of allelic association: “linkage disequilibrium (LD)”

17 Haplotype structure “haplotype block”


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