High-throughput single nucleotide polymorphism (SNP) arrays are important genotyping tools that accelerate breeding programs and basic research. In ...

A good way to define SNP genotyping technologies is by their throughput. High-throughput (HT) technologies target whole genome study for discovery purposes and can handle 10,000 or more SNPs using a ...

An area of great interest in drug discovery at present is the process of genotyping in order to better understand how single nucleotide polymorphisms(SNPs) are ...

Feeding the world in the midst of climate change and an ever-growing population demands scientists have access to scalable, flexible and sustainable genomic tools that add value to animal breeding ...

The requirement for increased throughput in SNP genotyping has led to the development of several technologies that do not use microtiter plates, such as gene chips and bead-based systems. These ...

In the latest collaboration in a series to advocate for genomics research, Integrated DNA Technologies (IDT)is teaming up with 3CR Bioscience (3CR) to widen access to quality custom solutions for ...

Population genomics helps scientists identify genetic drivers of disease. Up to now, population genomic studies have relied on data from microarrays or low-pass whole genome sequencing. These tools ...

The application of targeted genotyping by sequencing (targeted GBS) in marker assisted selection (MAS) and genomics assisted breeding (GAB) has made irrefutable impacts in transforming selection ...

Researchers from China developed the first high-density 10K SNP array for wax gourd using genotyping by target sequencing (GBTS) technology, comprising 10,722 genome-wide SNPs distributed across the ...