Methylation of DNA by the attachment of a methyl group to cytosines is one of the most widely studied epigenetic modifications in vertebrates, due to its implications in regulating gene expression ...

The four-way DNA junction is the most prevalent structural motif in DNA nanotechnology. Recently, a reconfigurable DNA nanoarray (domino array) was created with this basic motif to realize intricate, ...

A new class of autonomous nanorobots built from reconfigurable DNA origami arrays has been developed by researchers from Ludwig-Maximilians-Universität München, Emory University, and the Georgia ...

A new high-throughput genomic array offers an unprecedented look into the mouse epigenome, giving researchers an in-depth view into the basis of health and disease in a vital model organism. The array ...

As mice are a vital model organism and DNA methylation is commonly used in epigenetic studies, researchers have developed a high-throughput genomic array for DNA methylation for a more detailed view ...

Toyohashi University of Technology research team led by Prof. Rika Numano and Prof. Takeshi Kawano showed DNA stamper injections can be performed delivering biomolecules into live neuronal cells ...

A team of chemists and chemical engineers at Shanghai Jiao Tong University, working with a colleague from the Chinese Academy of Sciences, both in China, has built a DNA-based programmable gate array ...

Using scaffolds of folded DNA, engineers assembled arrays of quantum rods with desirable photonic properties that could enable them to be used as highly efficient micro-LEDs for televisions or virtual ...

Processes Involved in Using DNA Microarray Instrumentation in Protein Microarray Workflow Protein microarrays offer the ability to measure protein expression and antibody binding in a high-throughput ...

MIT engineers have used DNA origami scaffolds to create precisely structured arrays of quantum rods, which could be incorporated into LEDs for televisions or virtual reality devices. Credit must be ...