Background Whole genome amplification (WGA) promises to eliminate practical molecular
genetic analysis limitations associated with genomic DNA (gDNA) quantity. We evaluated …

Multiple displacement amplification (MDA) has emerged as a promising new method of
whole genome amplification (WGA) with the potential to generate virtually unlimited genome …

The promise of whole genome amplification (WGA) is that genomic DNA (gDNA) quantity
will not limit molecular genetic analyses. Multiple displacement amplification (MDA) and the …

In many situations there may not be sufficient DNA collected from patient or population
cohorts to meet the requirements of genome‐wide analysis of SNPs, genomic copy number …

Whole‐genome DNA amplification by multiple displacement (MD‐WGA) is a promising tool
to obtain sufficient DNA amounts from samples of limited quantity. Using …

Background Genotyping assays often require substantial amounts of DNA. To overcome the
problem of limiting amounts of available DNA, Whole Genome Amplification (WGA) methods …

Whole genome amplification (WGA) is crucial for whole genome sequencing to investigate
complex genomic alteration at the single-cell or even single-molecule level. Multiple …

Background Some array comparative genomic hybridisation (array CGH) platforms require a
minimum of micrograms of DNA for the generation of reliable and reproducible data. For …

The scarcity of genomic DNA can be a limiting factor in some fields of genetic research. One
of the methods developed to overcome this difficulty is whole genome amplification (WGA) …

Backgrounds Whole genome amplification (WGA) is a practical solution to eliminate
molecular analysis limitations associated with genomic DNA (gDNA) quantity. Different …