Doug Brutlag 2011 Genomics & Medicine Doug Brutlag Professor Emeritus of Biochemistry &

Doug Brutlag 2011

Genomics & Medicinehttp://biochem158.stanford.edu/

Doug BrutlagProfessor Emeritus of Biochemistry & Medicine

Stanford University School of Medicine

Simple Nucleotide Polymorphismshttp://biochem158.stanford.edu/SNPs.html

Doug Brutlag 2011

The Genome is Out of the Baghttp://stanmed.stanford.edu/2010fall/article1.html

Doug Brutlag 2011

Human Genetic Variation2007 Scientific Breakthrough of the Year

Simple

Doug Brutlag 2011

Simple (or Single) Nucleotide Polymorphisms (SNPs)

• SNPs are common variations which occur at > 15 million positions in human genome

• SNP MAF frequency can vary from 50% to 0.1% of population

• SNPS can serve as genetic markers• SNPs can be used for identifying individuals and

forensics • SNPs are used for mapping & genome-wide

association studies of complex disease• SNPs are used for ancestry tracking & family

relationships• SNPs are used for estimating predisposition to disease• SNPs are associated with disease, usually do not

cause them • SNPs are used to predict risk of common genetic

diseases• SNPs are used for personalized medicine and

genomics• SNPs are used for classifying patients in clinical trials

GCTGTATGACTAGAAGATCGATGCTGTATGACGAGAAGATCGAT

Doug Brutlag 2011

SNPs and Mutationsin the Human Genome

• 15 million sites in the human genome where SNPs can occur

• 3.8 million SNP sites cataloged in 270 individuals in the HapMap consortium

• Another 11 million SNP sites cataloged in the 1000 Genome effort

• 10 million sites are common (minor allele frequency: MAF > 5%)

• Each individual has 3-5 million SNPs (common variations) relative to the reference human genome

• Each individual also carries 300 to 500 rare mutations (more recent) many of which are lethal

Doug Brutlag 2011

A SNP Primer at NCBIhttp://www.ncbi.nlm.nih.gov/About/primer/snps.html

Doug Brutlag 2011

Department of Energy (DOE) SNP Page

http://www.ornl.gov/sci/techresources/Human_Genome/faq/snps.shtml

Doug Brutlag 2011

A Primer of Genome ScienceChapter 3 Genomic Variation

Doug Brutlag 2011

Simple Nucleotide Polymorphisms (SNPs)

• SNPs are common variations in the genome (minor allele frequency or MAF between 50% and 1%)

• Most SNPs are genetically neutral– Used in DNA fingerprints - forensics– Paternity tests– Immigration in the United Kingdom– Used to track ethnic migrations and ancestry

• Some SNPs reflect distinguishing characteristics– Often the basis for racial & genetic discrimination or

other stigma• Rarer variations cause disease. Unlike SNPs, these

variations are rare, often called mutations.• Some SNPs linked to predisposition to disease• SNPs can serve as genetic markers for other traits

– Clinical trials associate SNPs with drug efficacy – Clinical trials associate SNPs adverse drug reactions– Personal genomics associate SNPs with traits

• 23andMe, Navigenics, DNADirect

Doug Brutlag 2011

Types of SNPshttp://www.ncbi.nlm.nih.gov/sites/entrez?db=snp• Non protein coding SNPs

– Promoters– 5’ UTR– 3’ UTR– Introns– Intergenic Regions– Pseudogenes– Regulatory

• Splicing• Transcriptional regulation (promoter & transcription factor

binding sites)• Translational regulation (initiation or termination)• Regulatory miRNA target sites

• Coding SNPs– Synonymous SNPs (third position variation)– Replacement SNPs (change Amino acid)

• Functional SNPs (acceptable amino acid replacement)• Non-functional SNPs (traits & diseases)

Doug Brutlag 2011

Human Promoter SNPs

© Gibson & Muse, A Primer of Genome Science

Doug Brutlag 2011

dbSNP at NCBIhttp://www.ncbi.nlm.nih.gov/SNP/

Doug Brutlag 2011

Human β-Hemoglobin Genehttp://www.ncbi.nlm.nih.gov/gene/3043

Doug Brutlag 2011

Human β-Hemoglobin Genehttp://www.ncbi.nlm.nih.gov/gene/3043

Doug Brutlag 2011

Human β-Hemoglobin Gene SNPshttp://www.ncbi.nlm.nih.gov/SNP/snp_ref.cgi?locusId=3043

Doug Brutlag 2011

β-Hemoglobin Gene SNP rs111645889

http://www.ncbi.nlm.nih.gov/SNP/snp_ref.cgi?rs=111645889

Doug Brutlag 2011

β-Hemoglobin Gene SNP rs111645889

http://www.ncbi.nlm.nih.gov/SNP/snp_ref.cgi?rs=111645889

Doug Brutlag 2011

β-Hemoglobin SNP Variation Viewer

http://www.ncbi.nlm.nih.gov/sites/varvu?gene=3043

Doug Brutlag 2011

Origin of Haplotypes


Doug Brutlag 2011

Linkage Disequilibrium and Recombination Rate


Doug Brutlag 2011

Linkage Disequilibrium (LD) Across the Human LPL Gene


Doug Brutlag 2011

Recombination hotspots are widespread and account for linkage disequilibrium

structure

7q21 © Gibson & Muse, A Primer of Genome Science

Doug Brutlag 2011

Consensus binding site for PRDM9

Doug Brutlag 2011


structure

Doug Brutlag 2011


structure

7q21 © Gibson & Muse, A Primer of Genome Science

Doug Brutlag 2011

Observation of Haplotypes


Doug Brutlag 2011

SNPs in Populations


Doug Brutlag 2011

Sequence and Distance-Based Phylogenies (evolutionary trees)

• Sequence-Based Methods (Parsimony)– Assigns mutations to branches– Minimize number of changes– Topology maximizes similarity

of neighboring leaves

• Distance-based methods– Branch lengths = D(i,j)/2 for

sequences i, j– Distances must be metric– Distances can reflect time or

number of changes– Distances must be relatively

constant per unit branch length

Doug Brutlag 2011© Francis Collins, 2008

A Haplotype Map of the Human Genome

http://www.nature.com/nature/journal/v437/n7063/full/nature04226.html

Doug Brutlag 2011

International HapMap Projecthttp://www.hapmap.org/

Doug Brutlag 2011

Thousand Genomes Projecthttp://www.1000genomes.org/

Doug Brutlag 2011

10,000 Genomes Project Evolutionary Biology

http://www.genome.gov/

Doug Brutlag 2011

National Human Genome Research Institute

http://www.genome.gov/

Documents

Doug Brutlag 2011 Genomics & Medicine Doug Brutlag Professor Emeritus of Biochemistry &