Organoleptic Chemical Markers of Serpa PDO Cheese Specificity

Serpa is a protected designation of origin cheese produced with a vegetable coagulant (Cynara cardunculus L.) and raw ovine milk. Despite the unique sensory profile of raw milk cheeses, numerous parameters influence their sensory properties and safety. To protect the Serpa cheese quality and contribute to unifying their distinctive features, some rheologic and physicochemical parameters of cheeses from four PDO producers, in distinct seasons and with different sensory scores, were monitored. The results suggested a high chemical diversity and variation according to the dairy, month and season, which corroborates the significant heterogeneity. However, a higher incidence of some compounds was found: a group of free amino acids (Glu, Ala, Leu, Val and Phe), lactic and acetic acids, some volatile fatty acids (e.g., iC4, iC5, C6 and C12) and esters (e.g., ethyl butanoate, decanoate and dodecanoate). Through the successive statistical analysis, 13 variables were selected as chemical markers of Serpa cheese specificity: C3, C4, iC5, C12, Tyr, Trp, Ile, 2-undecanone, ethyl isovalerate, moisture content on a fat-free basis, the nitrogen-fractions (maturation index and non-protein and total nitrogen ratio) and G’ 1 Hz. These sensory markers’ identification will be essential to guide the selection and development of an autochthonous starter culture to improve cheese quality and safety issues and maintain some of the Serpa authenticity.

Isolation and Partial Characterisation of Milk-clotting Aspartic Protease from Streblus asper

A rennin-like milk-clotting protease from the twigs of Streblus asper was purified by a factor of 65 times with 36% recovery using ethanol precipitation, ion-exchange and size-exclusion chromatographic techniques. The enzyme was found to be monomeric in nature having a molecular mass of 55kDa. The enzyme acts optimally at 55°C and was stable in the temperature range of 30–40°C. Easy enzyme inactivation by moderate heating, makes this protease extract potentially useful for cheese production. The purified enzyme is an acid protease with an optimum pH of 5.5 and it retained 96% of its residual activity between pH 5.0 and 6.0. Pepstatin A inhibited the proteinase activity, whereas iodoacetamide, phenylmethyl sulphonyl fluoride, β-mercaptoethanol and ethylenediaminetetraacetic acid had no significant inhibitory effect suggesting the presence of aspartic acid residue at the active site. The milkclotting aspartic protease showed predominant α-helical conformation in phosphate buffer as evidenced from circular dichroic spectroscopy.