Genotyping Analyses using REPLI-g Amplified DNA

Genotyping
Achieve reliable results with uniform coverage and minimal locus bias
  • Main Image Navi
Genotyping encompasses a range of applications used to analyze genetic differences between individuals or cells. Researchers often face the problem of limited or insufficient DNA quantity for downstream analysis. Using REPLI-g for whole genome amplification solves this problem by providing high yields of unbiased DNA from small or precious samples.
Genotyping analyses using REPLI-g amplified DNA
Copy number analysis
REPLI-g amplified DNA enables highly reliable genotyping results
PCR-based methods (e.g., DOP-PCR and PEP) for whole genome amplification can produce nonspecific amplification artifacts and give incomplete coverage of loci. In several cases, DNA less than 1 kb long may be generated that cannot be used in many downstream applications. In general, the resulting DNA is generated with a much higher mutation rate due to the use of the low-fidelity enzyme Taq DNA polymerase, which can lead to error-prone amplification that results in, for example, single base-pair mutations, STR contractions, and expansions.

In contrast to these disadvantages, REPLI-g provides highly uniform amplification across the entire genome, with minimal locus bias and minimized mutation rates during amplification (see figures Highly representative amplification and Consistent and accurate whole genome amplification). The average product length of REPLI-g amplified DNA is typically more than 10 kb, with a range between 2 kb and 100 kb, enabling downstream applications such as complex restriction enzyme analysis and long-range PCR to be carried out. REPLI-g amplified DNA is highly suited for genotyping applications, such as SNP genotyping with TaqMan primer/probe sets (see figure Reliable SNP genotyping), sequencing, and STR/microsatellite analysis (see figure Accurate genotyping).

DNA from formalin-fixed, paraffin-embedded samples that have been amplified using the REPLI-g FFPE Kit is also highly suited for use in real-time PCR, and for genotyping analyses including SNP genotyping and microsatellite analysis (see figure Reliable microsatellite analysis).

Back to top

Copy number analysis
Gene copy number can vary within individual genomes. Studying gene copy number changes in specific cell types (e.g., tumor cells) has become increasingly important in cancer and cytogenetic research.

Copy number changes are classified as DNA “gains” or “losses” and show characteristic patterns that include mutations at chromosomal and subchromosomal levels. These chromosomal changes are frequently analyzed using comparative genome hybridization (CGH) techniques.

Breakpoint analysis enables the identification of chromosomal regions where “gains” or “losses” of chromosomal fragments have occurred. It also allows the identification of the genes that have been amplified or deleted. The high-quality DNA obtained using multiple displacement amplification (MDA) is more representative of the true genome than other whole genome amplification (WGA) techniques. Research by Hosono et al (2003) (1) and Paez et al (2004) (2) clearly shows that the copy number of different loci is very well preserved after amplification using MDA. In addition, any changes in copy number that are introduced through the process of amplification can be eliminated through normalization of the sample DNA against amplified control DNA.

1. Hosano, S. et al. (2003) Unbiased whole genome amplification directly from clinical samples. Genome Res. 13, 954.
2. Paez, J.G. et al. (2002) A full-coverage, high-resolution human chromosome 22 genomic microarray for clinical and research applications. Hum. Mol. Genet. 11, 3221.

Top products
5
REPLI-g Single Cell Kit (24)
For highly uniform whole genome amplification (WGA) from single cells or limited sample material
Show details
See products
For highly uniform whole genome amplification from small or precious samples
Show details
See products
For highly uniform whole genome amplification from small or precious samples
Show details
See products
For high-throughput manual or automated whole genome amplification from small or precious samples
Show details
See products
For direct whole genome amplification of DNA from formalin-fixed, paraffin-embedded (FFPE) tissue
Show details
See products
Resources

You are not authorized to download the resource

Brochures & Guides
1
Kit Handbooks
5
For fast whole genome amplification from purified genomic DNA, blood, and cells
Show details
For whole genome amplification from single cells, limited samples, or purified genomic DNA
Show details
For direct whole genome amplification of DNA from formalin-fixed, paraffin-embedded (FFPE) tissue
Show details
For whole genome amplification from purified genomic DNA, blood, and cells
Show details
For whole genome amplification from purified genomic DNA, blood, and cells
Show details
Scientific Posters
1
Images
Accurate Genotyping.
Accurate genotyping.
20 DNA samples amplified using REPLI-g technology, without subsequent DNA purification were subjected to genotyping analysis using 3 STR loci (CSF1PO, TPOX, and THOI). Results were compared to those obtained for unamplified genomic DNA. The DNA was separated by polyacrylamide gel electrophoresis and visualized by silver staining. A lane with one band represents a homozygote, while a lane with two bands represents a heterozygote for the specific STR locus.
Consistent and accurate whole genome amplification
Consistent and accurate whole genome amplification.
Real-time PCR was performed on 47 human loci (2 loci on each autosomal pair, 2 loci on the X chromosome[s], and 1 locus on the Y chromosome) from 44 different samples amplified using REPLI-g technology. Each sample was amplified approximately 10,000-fold with a maximum bias of representation between the loci being only 6-fold.
Highly representative amplification using REPLI-g technology
Highly representative amplification.
The relative representation of 8 loci was determined using real-time quantitative PCR for DNA amplified using [A] REPLI-g technology [B] DOP-PCR and [C] PEP. Locus representation was determined by comparison to 1 µg of unamplified control DNA.
Reliable microsatellite analysis
Reliable microsatellite analysis.
DNA from a 3.5-year-old FFPE carcinoma tissue sample was analyzed at a single microsatellite locus prior to and after DNA amplification using the REPLI-g FFPE Kit. Identical results were obtained for the original and REPLI-g amplified genomic DNA.
(Data provided by Hartmut Schmidt, Gerhard Domagk Institute for Pathology, Münster, Germany.)
Reliable SNP genotyping
Reliable SNP genotyping.
DNA amplified using REPLI-g technology, without subsequent purification, was subjected to SNP genotyping at 2 randomly selected loci (WIAF-1004 and WIAF-622) using TaqMan analysis. Tight clusters of alleles allow reliable determination of genotyping of homo- and heterozygote genotypes.