Mar Rodríguez

Evaluation of proteolytic activity of micro-organisms isolated from dry cured ham

In order to determine the possible contribution of micro‐organisms to the ripening of meat products, 48 cocci, 18 moulds and 20 yeasts isolated from dry‐cured Iberian ham were evaluated for proteolytic activity. Two specific methods were used: the ability to hydrolyse myosin in broth and, for those strains showing high activities, hydrolysis on both myofibrillar and sarcoplasmic proteins on pork slices. Moulds and cocci showed the highest proteolytic activity for myosin in broth. Both myofibrillar and sarcoplasmic proteins were recovered at lower rates from inoculated than from sterile incubated pork. The deepest changes in myofibrillar and sarcoplasmic proteins were originated by one strain each of Penicillium chrysogenum and Staphylococcus xylosus, respectively. Only small changes were observed in the concentrations of free amino acids from inoculated pork slices, except for the samples with P. chrysogenum, where there were increases in all free amino acids. Thus, P. chrysogenum makes a significant contribution to proteolysis during the ripening of dry‐cured meat products.

Characterization of Staphylococcus spp. and Micrococcus spp. isolated from Iberian ham throughout the ripening process

The Iberian dry cured ham is an uncooked meat product highly appreciated because of its characteristic flavour. This product is obtained from highly marbled Iberian pig hindlegs after 18-24 months of maturation under natural environmental conditions. The role of Micrococcaceae in the development of the aroma characteristics of this products remains unclear. Identification of Gram-positive, catalase-positive cocci isolated from Mannitol Salt Agar plates showed that Staphylococcus xylosus followed by Staphylococcus equorum are the predominant organisms, even after 16 months of maturing. A remarkable variety of types of both staphylococci and micrococci are detected at any sampling time. The metabolic activities of these organisms could contribute to the characteristics of the final product.

Association of APOE polymorphisms with disease severity in MS is limited to women

The authors studied the association of an exon 4 (E4*ε2/3/4) and three promoter polymorphisms of APOE with disease course and severity stratified by gender in 221 patients with multiple sclerosis from two overlapping population-based prevalence cohorts. Women carriers of the E4*ε2 allele took longer to attain an Expanded Disability Status Scale score of 6 (p = 0.015) and had more favorable ranked severity scores than noncarriers (p = 0.009). There was no association in men. Alleles ε3 or ε4 and promoter polymorphisms were not associated with disease course or severity.

Production of Cyclopiazonic Acid by Penicillium commune Isolated from Dry-Cured Ham on a Meat Extract–Based Substrate

Penicillium commune, a mold frequently found on dry-cured meat products, is able to synthesize the mycotoxin cyclopiazonic acid (CPA). To evaluate the hazard due to CPA on such foods, the ability of P. commune to grow and produce CPA at water activities (a(w)) in the range of 0.99 to 0.90 with a meat extract-based medium from 12 to 30 degrees C was determined. CPA was quantified by high-pressure liquid chromatography and mass spectrometry. P. commune was able to grow at every a(w) and temperature tested. The optimal environmental conditions for growth were 20 to 25 degrees C, at 0.97 to 0.96 a(w), but the highest amount of CPA was produced at 30 degrees C, 0.96 a(w). No direct correlation between growth rate and CPA production was assessed. Temperature seems to be the most important factor influencing CPA production. However, there was an interaction between temperature and a(w) that significantly (P < 0.001) affected growth and CPA production. An a(w) of 0.90 had a marked effect, depressing growth and CPA production. Meat extract-based medium proved to be an appropriate substrate for CPA biosynthesis by P. commune under a wide range of conditions.

Effect of selected strains of Debaryomyces hansenii on the volatile compound production of dry fermented sausage "salchichón".

Different biotypes of Debaryomyces hansenii, characterized by mitochondrial DNA (mtDNA) restriction analysis, were inoculated in dry fermented sausages to evaluate their influence as single starter culture on volatile compound generation throughout the ripening process. Similar evolution of physicochemical parameters and microbial population was observed in both uninoculated and inoculated sausages. The tested biotypes modified the volatile compound profile of sausages specially in esters, branched alcohols and aldehydes. The biotype of D. hansenii with the E mtDNA restriction pattern is the most suitable to be used as starter culture since it produced volatile compounds involved in flavour development of dry-cured meat products such as 3-methylbutanol, 3-methylbutanal and 2-propanone. Moreover, the use of D. hansenii strains with the B, C2 and E mtDNA restriction patterns, as a mixed starter culture, should be also considered to generate low amount of sulphur compounds in dry-cured meat products.

Quantification of ochratoxin A-producing molds in food products by SYBR Green and TaqMan real-time PCR methods

Ochratoxin A (OTA) is a mycotoxin synthesized by a variety of different fungi, most of them from the genera Penicillium and Aspergillus. Early detection and quantification of OTA producing species is crucial to improve food safety. In the present work, two protocols of real-time qPCR based on SYBR Green and TaqMan were developed, and their sensitivity and specificity were evaluated. Primers and probes were designed from the non-ribosomal peptide synthetase (otanpsPN) gene involved in OTA biosynthesis. Seventy five mold strains representing OTA producers and non-producers of different species, usually reported in food products, were used as references. All strains were tested for OTA production by mycellar electrokinetic capillary electrophoresis (MECE) and high-pressure liquid chromatography-mass spectrometry (HPLC-MS). The ability of the optimized qPCR protocols to quantify OTA-producing molds was evaluated in different artificially inoculated foods. A good linear correlation was obtained over the range 1x10(4) to 10conidia/g per reaction for all qPCR assays in the different food matrices (cooked and cured products and fruits). The detection limit in all inoculated foods ranged between 1 and 10conidia/g for SYBR Green assay and TaqMan. No significant differences were found between the Ct values obtained from pure mold DNA and pure mold DNA mixed with food DNA. The ability of the designed qPCR methods to quantify two known conidial suspensions inoculated on several foods was evaluated. The amount of conidia assessed by both qPCR methods was close to the inoculated amount for most foods and indicates that the described procedure holds potential for use for the detection and quantification of OTA producing molds in foods.

Presence of ochratoxin A on the surface of dry-cured Iberian ham after initial fungal growth in the drying stage

Accumulation of ochratoxin A (OTA) on the surface and to a 0.5 cm depth of dry-cured Iberian ham after initial fungal growth was investigated. For this, 20 dry-cured Iberian hams from the drying stage showing incipient fungal growth on the surface were analyzed. In addition, the presence of OTA-producing molds was examined on the surface of the hams by real-time quantitative PCR (qPCR) based on the otanpsPN gene. Quantification of specific OTA-producing molds, such as Penicillium nordicum and Penicillium verrucosum was also achieved on the hams by specific qPCR methods. Ten of 20 dry-cured hams showed OTA at higher levels than those established by legal regulation. OTA was even detected in the deep section of hams. OTA-producing molds ranged from 1.5 to 7.3 log cfu/cm². Accumulation of OTA on the hams seems to be related to the presence of OTA-producing molds and especially to P. nordicum.

Purification and Characterization of an Extracellular Protease from Penicillium chrysogenum Pg222 Active against Meat Proteins

ABSTRACT An extracellular protease from Penicillium chrysogenum (Pg222) isolated from dry-cured ham has been purified. The purification procedure involved several steps: ammonium sulfate precipitation, ion-exchange chromatography, filtration, and separation by high-performance liquid chromatography. Based on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis and gel filtration, the purified fraction showed a molecular mass of about 35 kDa. The hydrolytic properties of the purified enzyme (EPg222) on extracted pork myofibrillar proteins under several conditions were evaluated by SDS-PAGE. EPg222 showed activity in the range of 10 to 60°C in temperature, 0 to 3 M NaCl, and pH 5 to 7, with maximum activity at pH 6, 45°C, and 0.25 M NaCl. Under these conditions the enzyme was most active against tropomyosin, actin, and myosin. EPg222 showed collagenolytic activity but did not hydrolyze myoglobin. EPg222 showed higher activity than other proteolytic enzymes like papain, trypsin, and Aspergillus oryzae protease. The N-terminal amino acid sequence was determined and was found to be Glu-Asn-Pro-Leu-Gln-Pro-Asn-Ala-Pro-Ser-Trp. This partial amino acid sequence revealed a 55% homology with serine proteases from Penicillium citrinum. The activity of this novel protease may be of interest in ripening and generating the flavor of dry-cured meat products.

Effects of Substrate, Water Activity, and Temperature on Growth and Verrucosidin Production by Penicillium polonicum Isolated from Dry-Cured Ham

Penicillium polonicum, a common mold on dry-cured meat products, is able to produce verrucosidin, a potent neurotoxin. The ability of P. polonicum isolated from dry-cured ham to grow and produce verrucosidin from 4 to 40 degrees C at water activities (a(w)) of 0.99, 0.97, and 0.95 on malt extract agar (MEA) and a medium made up with meat extract, peptone, and agar (MPA) was evaluated. Verrucosidin was quantified by high-pressure liquid chromatography and mass spectrometry. P. polonicum was able to grow on MEA and MPA at all the a(w) values tested from 4 to 37 degrees C but not at 40 degrees C. The optimal environmental conditions for growth were 20 degrees C, 0.99 a(w) on MEA and 20 to 25 degrees C, 0.97 a(w) on MPA, but the highest amount of verrucosidin was obtained at 25 degrees C, 0.99 a(w) in both media. No direct correlation between extension of mold growth and verrucosidin production was found. Temperature appears to be the most important factor ruling mycelial growth, whereas verrucosidin accumulation is mostly influenced by a(w). However, analysis of variance of the data showed that there was a complex interaction among all the environmental factors (medium, temperature, and a(w)) that significantly (P < 0.0001) affected growth and verrucosidin production. The reduction of a(w) to intermediates values of 0.95 has a stronger effect on growth on MEA than on MPA. Given that the meat-based medium proved to be an appropriate substrate for the biosynthesis of verrucosidin by P. polonicum, the ability of this mold to produce the toxin on meat products should be established.

Characterization of molds from dry-cured meat products and their metabolites by micellar electrokinetic capillary electrophoresis and random amplified polymorphic DNA PCR.

Molds are common contaminants of dry-cured meat products in which mycotoxins could be synthesized if stored under favorable conditions. Thus, efficient and accurate characterization of the toxigenic molds from dry-cured meat products is necessary. A micellar electrokinetic capillary chromatography (MECC) method was tested to analyze secondary metabolites produced by 20 mold strains commonly found in dry-cured meat products. In addition, their random amplified polymorphic DNA (RAPD) genotypes were determined by using a PCR method. Although peak profiles of the secondary metabolites differed among mold strains of different species, they were similar in the same species. MECC analysis showed that 10 of the 20 molds tested produced mycotoxins, including patulin, penicillic acid, cyclopiazonic acid, mycophenolic acid, aflatoxin B1, sterigmatocystin, and griseofulvin. The RAPD analysis yielded a different pattern for each of the mold species tested. However, strains of the same species showed similar RAPD profiles. A high correlation between RAPD analysis and MECC was observed, since strains of the same species that showed similar RAPD patterns had similar profiles of secondary metabolites. RAPD patterns with primer GO2 and MECC profiles, either singly or combined, could be of great interest to distinguish toxigenic from nontoxigenic molds in dry-cured meat products.