It also contains a recognition site for signal peptidases, which means the enzyme will recognise the signal peptide and cleave it at a particular point.

The enzyme does not recognize or act on double-stranded DNA.

The enzyme from Saccharomyces cerevisiae can also recognize small ubiquitin-like modifier 1 (SUMO-1) from human.

Each cell has a number of pathways through which enzymes recognize and repair damages in DNA.

This enzyme recognizes a short RNA sequence near each of the genes in order to start this copying process.

Such enzymes recognise a specific sequence in DNA and methylate a cytosine in that sequence.

In early studies, it was shown that modifying enzymes could recognize and act on any N-acetylated residue in the forming polymer.

These enzymes recognise the CaaX box at the C-terminus of the target protein.

The enzyme recognizes 34 base pair DNA sequences called loxP ("locus of crossover in phage P1").

However, since these compounds are few in number, specific enzymes can recognize and remove them.