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Showing 1-7 of 7 results for "GenomePlex<SUP>®</SUP> Complete Whole Genome Amplification (WGA) Kit"
GenomePlex® Whole Genome Amplification Kit: A High-Throughput Approach for Rapidly Amplifying Genomic DNA from a Variety of Biological Materials
GenomePlex® Whole Genome Amplification Kit: A High-Throughput Approach for Rapidly Amplifying Genomic DNA from a Variety of Biological Materials
Whole Genome Amplification for Single Cell Biology
The ultimate biological unit lies within a single cell. Many biological disciplines have taken aim to elucidate the causes of cellular differentiation at this level.
Histone Modification and Chromatin Remodeling | Epigenetics
Epigenetic modifications are thought to occur through two key interconnected processes—DNA methylation and the covalent modification of histones.
Genomic Analysis of Formalin-Fixed Paraffin Embedded (FFPE) Tissues through the use of Whole Genome Amplification (WGA)
Preserved samples from medical, forensic, museum and other archival collections represent a rich source of study material, much of it meticulously collected, characterized and preserved through many decades of work by experts in the field.
Array CGH Analysis of Challenging Samples
In recent years, array-based Comparative Genomic Hybridization (aCGH) has been refined to determine chromosomal changes at progressively higher resolutions. This evolving technology is, however, hampered by the large DNA input requirement—a minimum of 150,000 copies of a human genome, or...
Whole Genome Amplification for Single Cell Biology
Whole genome amplification (WGA) offers a means to overcome the above restrictions for single-cell genomic analyses. WGA has been described as a non-specific amplification technique that affords an amplified product completely representative of the initial starting material.
Qualitative multiplex PCR assay for assessing DNA quality from FFPE tissues and other sources of damaged DNA
The assessment of DNA quality is a crucial first step in acquiring meaningful data from formalin-fixed paraffin-embedded (FFPE) tissues, and other sources of damaged DNA. Using intact genomic DNA is key for successful analysis of chromosomal aberrations (e.g. SNP analysis...

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