基因體研究技術概論 March 6, 2001

基因體研究技術概論

講題: Genotyping. March 6, 2001

教師: 鍾明怡電話: 28712121 ext. 3265
email: mychung@vghtpe.gov.tw
Genotyping Core Laboratory

General references:

Chapters 11-14 in “Human molecular genetics” by T.Strachan and AP Read.
“Principles of medical genetics” by TD Gelehrter, and FS Collins.
“Genetics in Medicine” by Thompson and Thompson.
Some of the mentioned techniques can be found in biotech companies as Applied Biosystems (autosequening, genotyping, TaqMan, SNaPshot), BioRad (DGGE, CDGE, TGGE, SSCP), Transgenomics (dHPLC)

After this class you should be able to answer the following questions,

What is genotyping?
What are genotype and phenotype?
Define some of the related genetic terms.
What is genotyping for?
Explain positional cloning and linkage analysis briefly.
How is genotyping done in a lab?
What is a “marker”?
Why are microsatellite markers widely used these days?
How do we perform “high throughput” genotyping in a core lab?
What is SNP?
How are SNPs detected traditionally?
How are SNPs detected nowadays?
Briefly describe the relative size of the components of the human genome and techniques applied to genome research.

Terminology: ABO blood group as an example

genotype, phenotype, locus, alleles, polymorphic, dominant, recessive, co-dominant

Why genotyping ?

Positional candidate cloning
research in molecular genetics
genetic counseling
forensics

Polymorphic Markers

Protein: ABO, HLA blood groups...etc..
DNA sequences:
RFLP (restriction fragment length polymorphism)
VNTR (variable number of tandem repeats)
microsatellite (STR, short tandem repeats)
SNP (single nucleotide polymorphism)

Nomenclature of markers

example: D22S264
“D” means DNA
“22” means chromosome 22.
“S” means simple sequence, “Z” means repetitive on a single chromosome, and “F” means repetitive on multiple chromosomes.
“264” means the 264th markers deposited, Independent of position
Markers can be non-polymorphic, a.k.a. STS, “sequence tagged sites”, or expressed or not.

RFLP

Restriction fragment length polymorphism
Methods of detection
restriction enzyme digestion of genomic DNA + southern blot + hybridization with a specific probe
restriction enzyme digestion of PCR-amplified DNA fragment.

VNTR

Variable number of tandem repeats
Methods of detection
restriction enzyme digestion of genomic DNA + southern blot + hybridization with a specific probe
electrophoresis of PCR product on a gel (usually polyacrylamide).

Microsatellite

Short tandem repeats (STR)
Repeats of two, three or four nucleotides, for example, (CA)n, (CAG)n, (GATA)n.
Evenly distributed in the human genome

How to visualize microsatellite markers?

Why microsatellite markers?

Informativeness of a marker
Weissenback markers (Nature 1992; 359;794-801); even distribution in the genome
allele size range
fluorescent dyes and matrix
autosequencer

Experiment procedures

PCR setup for each marker
multiplexing may work for some markers
Pool PCR products of the same panel.
Add loading dye with internal size standard.
Gel electrophoresis.

Examples of Application

parental origin
LOH
microsatellite instability

Single Nucleotide Polymorphisms (SNP)

Third Generation genetic map.
Power: ~2.5 SNPs equal to the power of one STR.
In human, 1,592,751mapped as of Feb. 12, 2001, total 2,554,830 submitted.

3x10⁹/1,592,751@ 2000bp/SNP

=> ~6 kb resolution of the human genome.

Home page: http://www.ncbi.nlm.nih.gov/SNP/index.html

Database for SNP at NCBI

SNPs: detection, confirmation, high throughput

SSCP (single strand conformation polymorphism), UFD1L as an example
DGGE (denaturing gradient gel electrophoresis)
CDGE (constant denaturing gel electrophoresis)
TGGE (temperature gradient gel electrophoresis)
Heteroduplex analysis and dHPLC (denaturing high performance liquid chromatography)
sequencing
RFLP of PCR product
ASO (allele specific oligo), detects specific SNPs by hybridization.
Allelic discrimination by TaqMan probe
Primer extension (SNaPshot)
molecular beacon

Discovery SNP using the WAVE ? system

dHPLC = denaturing HPLC
Fragment length: 150-450 bp (= 1.5 Kb)
Four key aspects of mutation detection
PCR primer design,
PCR protocol,
separation gradient,
separation temperature
DYS271and an unknown gene as examples.

SNP by microarray

Affymetrix HuSNP genotyping chip.
If you want to see the microarry chip, you can try to find it on the Research Genetics web site: http://www.resgen.com/.
about 1500 SNP covering all 22 autosomes and the X chromosome.
Primarily for linkage studies, also for LOH and association studies.
Use only 0.5 micrograms of DNA.

Why SNP?

Variants of proteins.
High density

Positional cloning

Nature Genetics 1992; 1:3-6.
Nature Genetics 1993; 3:277-279.
Linkage analysis
Basic mechanism: meiotic recombination between chromosome homologues.
unit: centiMorgan (cM), Morgan (M). Genetic distance is a function of recombination fraction. Two loci which show 1% recombination are defined as being 1 cM apart on a genetic map.
LOD score to evaluate whether the recombination fraction you measured is statistically significant. Usually,

LOD score >3 => linkage is accepted;

LOD score <-2 => linkage is excluded,

LOD score between -2 and 3 means inconclusive.

Why genotyping ?

Positional candidate cloning
single gene
multifactorial
traits and susceptibility
Research in molecular genetics
parental origin of the defect
haplotype analysis or linkage disequilibrium
Genetic counseling
Forensics

The human genome and various techniques for genome research

chromosomes (estimated 64 Mb to 400 Mb)
linkage analysis
FISH (fluorescent in situ hybridization)
PFGE (pulse field gel electrophoresis), regular agarose gel electrophoresis
cloning vectors: YAC (yeast artificial chromosome), PAC, BAC, P1 phage, cosmid, plasmid
Gene, gene complex