Traditionally, chymosin has been used for milk-clotting, but this naturally occurring enzyme is in short supply and its use has raised religious and ethical concerns. Because milk-clotting peptidases are a promising substitute for chymosin in cheese preparation, there is a need to find and test the specificity of these enzymes. Here, we evaluated the milk-clotting properties of an aspartic peptidase secreted by . The molecular mass of this enzyme was estimated at 36 kDa and Pepstatin A was determined to be an inhibitor. Optimal activity occurred at a pH of 5.5 and a temperature range of 50-60 °C, but the peptidase was stable in the pH range of 4-7 and a temperature as low as 45 °C. Proteolytic activity was significantly reduced in the presence of Cu and Al. When enzyme substrates based on FRET were used, this peptidase exhibited the highest catalytic efficiency for Abz-KNRSSKQ-EDDnp (4,644 ± 155 mM.s), Abz-KLRSSNQ-EDDnp (3,514 ± 130 mM.s), and Abz-KLRQSKQ-EDDnp (3,068 ± 386 mM.s). This study presents a promising peptidase for use in cheese making, due to its high stability in the presence of Ca and broad pH range of 4-7, in addition to its ability to efficiently clot milk.
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| http://dx.doi.org/10.1080/10826068.2019.1683861 | DOI Listing |
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Article Synopsis
- Interfacial properties of biomaterials influence critical functions like cell adhesion and tissue repair, making their manipulation essential for clinical applications.
- The study develops a versatile layer-by-layer (LbL) strategy to effectively attach peptides to substrates using polyphenols, enhancing interfacial functionalities.
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