DNA arrays were used to prove this claim in the research lab of Professor Rudolf Jaenisch.

Full genome sequencing provides information on a genome that is orders of magnitude larger than that provided by the previous leader in genotyping technology, DNA arrays.

The main utility of DNA arrays lies in their ability to report the expression level of thousands of genes simultaneously, although other uses are being continually introduced.

This shows that computation can be incorporated into the assembly of DNA arrays, increasing its scope beyond simple periodic arrays.

Thus, although alphoid DNA arrays represent a significant fraction of the genome, TAR cloning of those regions is inefficient without counter-selection.

The third vector, pARS-ALF, was designed for cloning human alphoid DNA arrays.

Over 20 protein arrays can be printed from a single DNA array with no adverse effects on production efficiency.

Probe composition: There are tiled and non-tiled DNA arrays.

These results show that computation can be incorporated into the assembly of DNA arrays.

Carbon nanotubes have been hosted on DNA arrays in a pattern allowing the assembly to act as a molecular electronic device, a carbon nanotube field-effect transistor.