| pubmed-article:7342601 | pubmed:abstractText | This report evidences that the single polypeptide chain of cathepsin D undergoes in vitro autolysis resulting in heavy (Mr about 30000) and light (Mr about 15000) polypeptide chains. These two chains are held together through non-covalent interaction, thus constituting a stable active conformation. Fluorescence and circular dichroism measurements demonstrate the irreversible denaturation of cathepsin D. The existence of cathepsin D precursor, cathepsinogen D, of about 50000 molecular weight was proved. Cathepsinogen D is converted to the active enzyme by intramolecular activation, releasing activation-inhibitory peptide(s). | lld:pubmed |
