whereas the other's runs in the 3' to 5' direction (Figure 4). It's also critical to understand that the specific sequence of A, T, C, and G nucleotides within an organism's DNA is unique to that ...

Researchers at the University of Toronto have invented a new method that uses DNA sequencing to measure metabolites. This ...

With this knowledge, perhaps scientists could figure out how to replicate this ... They duplicate themselves and move within the DNA sequence — and that’s what slows down the aging process ...

With DNA barcoding, you can easily design thousands of unique DNA sequences to tag every one of those molecules with unique DNA barcode fingerprints,” explained Liu. Low throughput techniques such as ...

After the genomic DNA is obtained, it is digested with a pair of restriction enzymes, often MseI and EcoRI (Figure 1 ... adaptor-associated sequence. Therefore, each unique genomic DNA fragment ...

Researchers at the University of Toronto have invented a new method that uses DNA sequencing to measure metabolites ... a target metabolite and to carry a unique DNA barcode.

The study comprehensively analyzed "cis-regulatory elements" (CREs), which are the DNA sequences that regulate ... of CREs by tagging them with unique DNA barcodes that track their activity.

Meganucleases are an example of such unique sequences. The design of such enzymes that can recognize longer DNA sequences is particularly complex, however, as DNA recognition and cutting take place in ...

The DEC-Tec library of drug-like molecules, each of which is attached to a unique DNA sequence that acts as a “bar code” defining its synthesis, can be incubated in a single tube with a target protein ...

The gold standard technology that scientists use to detect DNA methylation is bisulfite genomic sequencing. It is a qualitative, quantitative, and efficient approach to identify methylated cytosine at ...