https://wikimd.org/index.php?action=history&feed=atom&title=CarboxypeptidaseCarboxypeptidase - Revision history2026-04-27T14:41:28ZRevision history for this page on the wikiMediaWiki 1.44.2https://wikimd.org/index.php?title=Carboxypeptidase&diff=4967293&oldid=prevPrab at 17:48, 8 September 20232023-09-08T17:48:14Z<p></p>
<p><b>New page</b></p><div>[[Image:Carboxypeptidase A.png|thumb|right|220px|[[Carboxypeptidase A]], from bovine pancreas]]<br />
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'''Carboxypeptidases''' are a type of [[protease]] enzyme (EC number 3.4.16 - 3.4.18) that function to hydrolyze or cleave peptide bonds at the carboxy-terminal (C-terminal) of proteins or peptides. This contrasts with [[aminopeptidase]] enzymes, which act on the opposite end of the protein. Found in humans, animals, and plants, carboxypeptidases have an array of functions from catabolism to the maturation of proteins.<br />
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=== Functions ===<br />
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While early studies on carboxypeptidases focused on their role in food digestion (like pancreatic carboxypeptidases A1, A2, and B), it's now known that most carboxypeptidases have functions beyond catabolism. These enzymes:<br />
* Aid in [[Post-translational modification|protein maturation]]<br />
* Facilitate the biosynthesis of neuroendocrine peptides, such as [[insulin]]<br />
* Play roles in [[blood clotting]], growth factor production, wound healing, reproduction, and numerous other biological processes<br />
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=== Classification ===<br />
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==== By Active Site Mechanism ====<br />
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Carboxypeptidases can be grouped based on their active site mechanism:<br />
* '''Metallo-carboxypeptidases''' (EC number 3.4.17): Use a metal in their active site<br />
* '''Serine carboxypeptidases''' (EC number 3.4.16): Use active site serine residues<br />
* '''Cysteine carboxypeptidases''' or '''thiol carboxypeptidases''' (EC number 3.4.18): Utilize an active site cysteine<br />
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Note: These classifications are not about the selectivity of the amino acid cleavage.<br />
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==== By Substrate Preference ====<br />
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Based on substrate preference, carboxypeptidases can be further categorized as:<br />
* '''Carboxypeptidase A''': Prefers amino acids with aromatic or branched hydrocarbon chains (A for aromatic/aliphatic)<br />
* '''Carboxypeptidase B''': Acts on positively charged amino acids like arginine and lysine (B for basic)<br />
* '''Glutamate carboxypeptidase''': A metallo-carboxypeptidase that cleaves C-terminal glutamate from N-acetyl-L-aspartyl-L-glutamate peptides<br />
* '''Prolyl carboxypeptidase''': A serine carboxypeptidase that cleaves the C-terminal residue from peptides with the sequence -Pro-Xaa (where Pro represents [[proline]] and Xaa any C-terminus amino acid)<br />
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=== Activation ===<br />
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Some carboxypeptidases are synthesized as inactive precursors known as procarboxypeptidases. For instance, pancreatic carboxypeptidase A starts as an inactive zymogen - pro-carboxypeptidase A, which is then activated to carboxypeptidase A by the enzyme [[enteropeptidase]]. This process prevents self-digestion of the cells producing the pro-carboxypeptidase A.<br />
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== See Also ==<br />
* [[Carboxypeptidase E]]<br />
* [[Carboxypeptidase A]]<br />
* [[Enzyme category EC number 3.4]]<br />
* [[Thrombin-activatable fibrinolysis inhibitor]] or plasma carboxypeptidase B2<br />
* [[bacterial transpeptidase]], an alanine carboxypeptidase<br />
* [[bradykinin]] undergoes degradation by carboxypeptidase N, among other enzymes<br />
* [[D-Ala carboxypeptidase]] is a type of penicillin-binding protein<br />
* [[Phenylalanine]] may act as an inhibitor for carboxypeptidase A<br />
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{{Proteases}}<br />
[[Category:Proteins]]<br />
[[Category:Enzymes]]<br />
[[Category:Metabolism]]</div>Prab