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Carboxypeptidase (EC number 3.4.16 - 3.4.18) is an enzyme that hydrolyzes the carboxy-terminal (C-terminal) peptide bond of proteins and peptides thus releasing the last amino acid of the chain. Humans, animals, and plants contain several types of carboxypeptidases with diverse functions ranging from catabolism to protein maturation.


The first carboxypeptidases studied were those involved in the digestion of food (pancreatic carboxypeptidases A1, A2, and B). However, most of the known carboxypeptidases are not involved in catabolism; they help to mature proteins or regulate biological processes. For example, the biosynthesis of neuroendocrine peptides such as insulin requires a carboxypeptidase. Carboxypeptidases also function in blood clotting, growth factor production, wound healing, reproduction, and many other processes.


By active site mechanism

Carboxypeptidases are usually classified into one of several families based on their active site mechanism.

  • Enzymes that use a metal in the active site are called "metallo-carboxypeptidases".
  • Other carboxypeptidases that use active site serine residues are called "serine carboxypeptidases".
  • Those that use an active site cysteine are called "cysteine carboxypeptidase" (or "thiol carboxypeptidases").

These names do not refer to the selectivity of the amino acid that is cleaved.

By substrate preference

Another classification system for carboxypeptidases refers to their substrate preference.

A metallo-carboxypeptidase that cleaves a C-terminal glutamate from the peptide N-acetyl-L-aspartyl-L-glutamate is called "glutamate carboxypeptidase".

A serine carboxypeptidase that cleaves the C-terminal residue from peptides containing the sequence -Pro-Xaa (Pro is proline, Xaa is any amino acid on the C-terminus of a peptide) is called "prolyl carboxypeptidase".


Some, but not all, carboxypeptidases are initially produced in an inactive form; this precursor form is referred to as a procarboxpeptidase. In the case of pancreatic carboxypeptidase A, the inactive zymogen form, pro-carboxypeptidase A, is converted to its active form - carboxypeptidase A - by the enzyme enteropeptidase. This mechanism ensures that the cells wherein pro-carboxypeptidase A is produced are not themselves digested.

See also

See also

External links

de:Carboxypeptidasen fi:Karboksipeptidaasi