The coding or non-coding regions can be changed and the peptide sequence alters accordingly.

As with humans, fewer studies have searched for adaptive evolution in non-coding regions of other organisms.

Moreover, we find that 'mers in both coding and non-coding regions follow the power-law distribution equally well (see Additional data).

In the comparative genomics approach, sequence conservation of non-coding regions can be indicative of enhancers.

There is a putative stem loop structure in the non-coding region of each segment which has a conserved 9-nucleotide sequence at its apex.

Splicing is the process by which non-coding regions of RNA are removed.

The regulatory functions commonly associated with conserved non-coding regions are thought to play a role in the evolution of eukaryotic complexity.

Tandem repeats (the main influence for slippage replication) can be found in coding and non-coding regions.

The non-coding region is circularized and degraded.

The probes are derived from most of the known genes and non-coding regions of the genome, printed on a glass slide.