They then comprehensively analyzed the changes in the whole genome and epigenome using next
generation deep sequencing.
Not exact matches
How far this creativity can go in creating the human level in the case of any one individual depends partly upon his innate capacity but most of all upon two other features: (1) how wide and
deep is the volume of history that reaches him, that is, how abundant and coherent are the values that have been accumulated in the history he inherits and (2) how
deep is the communion he is able to have with other persons who embody these meanings accumulated through a long
sequence of
generations.
The researchers got around that problem by using
deep, next -
generation DNA
sequencing, allowing them to pick up on even the smallest changes.
For one thing,
sequencing technologies continue to develop at a breakneck pace, and, according to Willerslev, as third -
generation technologies such as nanopore
sequencing are applied to ancient - DNA work, researchers will be able to probe even
deeper into the biological past.
To characterize their viral genomes in greater depth, we analyzed RNA extracts from these 3 samples by unbiased next -
generation, or «
deep»
sequencing.
Small subunit (SSU) rRNA gene
sequencing on second
generation platforms leverages their
deep sequencing and multiplexing capacity, but is limited in genetic resolution due to short read lengths.