Artichoke cv. Francés flower extract as a rennet substitute: effect on textural, microstructural, microbiological, antioxidant properties, and sensory acceptance of miniature cheeses.

BACKGROUND: The most common milk-clotting enzymes in the cheese industry are recombinant chymosins. Food naturalness is a factor underpinning consumers' food choice. For consumers who avoid food with ingredients from genetically modified organisms (GMOs), the use of vegetable-based rennet substitute in the cheese formulation may be a suitable solution. Artichokes that deviate from optimal products, when allowed to bloom due to flower protease composition, are excellent as raw material for vegetable rennet preparation. As enzymatic milk clotting exerts a significant impact on the characteristics of the final product, this product should be studied carefully. RESULTS: Mature flowers from unharvested artichokes (Cynara scolymus cv. Francés) that did not meet aesthetic standards for commercialization were collected and used to prepare a flower extract. This extract, as a coagulant preparation, enabled the manufacture of cheeses with distinctive characteristics compared with cheeses prepared with chymosin. Rennet substitution did not affect the actual yield but led to significant changes in dry matter yield, humidity, water activity, protein content, and color, and conferred antioxidant activity to the cheeses. The rennet substitution promoted significant modifications in springiness, and in the microstructure of the cheese, with a more porous protein matrix and an increment in the size of the fat globules. Both formulations showed a similar microbiota evolution pattern with excellent microbiological quality and good sensory acceptance. CONCLUSIONS: The rennet substitute studied here produced a cheese adapted to specific market segments that demand more natural and healthier products made with a commitment to the environment but well accepted by a general cheese consumer. © 2020 Society of Chemical Industry.

Purification and characterization of hieronymain III. Comparison with other proteases previously isolated from Bromelia hieronymi Mez.

A new proteolytic enzyme, named hieronymain III, has been purified by ion-exchange chromatography from unripe fruits of Bromelia hieronymi Mez. The new peptidase belongs to the cysteine catalytic type, as well as hieronymain I and II, the other two peptidases previously isolated from this species. Hieronymain III showed optimum alkaline pH range (8.6-9.3) and the molecular mass (MALDI-TOF) was 23713 Da. The N-terminal sequence (AVPQSIDWRRYGAVTTSRNQG) exhibited a higher percentage identity with hieronymain II (93%) than with hieronymain I (71%). The three peptidases showed notable differences on synthetic substrates degradation: whereas hieronymain III was the only one able to hidrolyze Z-Arg-Arg-p-nitroanilide, hieronymain I and II could degrade Z-Phe-Arg-p-nitroanilide; on the other hand, PFLNA was only split by hieronymain I. Finally, the three proteases showed different preferences on N-alpha-CBZ-p-nitrophenyl aminoacid ester substrates. From a biotechnological point of view, cleavage specificity differences are significant enough to use these enzymes as potential tools in that area.

Isolation and characterization of hieronymain II, another peptidase isolated from fruits of Bromelia hieronymi Mez (Bromeliaceae).

From unripe fruits of Bromelia hieronymi Mez (Bromeliaceae), a partially purified protease preparation was obtained by acetone fractionation of the crude extract. Purification was achieved by anionic exchange chromatography (FPLC) on Q-Sepharose HP followed by cationic exchange chromatography (SP-Sepharose HP). Homogeneity of the new enzyme, named hieronymain II, was confirmed by SDS-PAGE and mass spectroscopy (MALDI-TOF-TOF). The molecular mass of was 23,411 Da, and maximum proteolytic activity (more than 90% of maximum activity) was achieved at pH 7.5-9.0 on casein and at pH 7.30-8.3 on Z-Phe-Arg-p-nitroanilide. The enzyme was completely inhibited by E-64 and iodoacetic acid and activated by the addition of cysteine. The N-terminal sequence of hieronymain II (AVPQSIDWRVYGAV) was compared with those of 12 plant cysteine proteases which showed more than 70% of identity. Kinetic enzymatic assays were made on Z-Phe-Arg-p-nitroanilide (Km = 0.72mM, kcat = 1.82 seg(-1) , kcat/ Km = 2.54seg(-1) mM(-l)). No detectable activity could be found on PFLNA or Z-Arg-Arg-p-nitroanilide.

Hieronymain I, a new cysteine peptidase isolated from unripe fruits of Bromelia hieronymi Mez (Bromeliaceae).

A new peptidase, named hieronymain I, was purified to homogeneity from unripe fruits of Bromelia hieronymi Mez (Bromeliaceae) by acetone fractionation followed by cation exchange chromatography (FPLC) on CM-Sepharose FF. Homogeneity of the enzyme was confirmed by mass spectroscopy (MALDI-TOF), isoelectric focusing, and SDS-PAGE. Hieronymain is a basic peptidase (pI > 9.3) and its molecular mass was 24,066 Da. Maximum proteolytic activity on casein (>90% of maximum activity) was achieved at pH 8.5-9.5. The enzyme was completely inhibited by E-64 and iodoacetic acid and activated by the addition of cysteine; these results strongly suggest that the isolated protease should be included within the cysteine group. The N-terminal sequence of hieronymain (ALPESIDWRAKGAVTEVKRQDG) was compared with 25 plant cysteine proteases that showed more than 50% of identity.