Cashew (Anacardium occidentale) Nut-Shell Liquid as Antioxidant in Bulk Soybean Oil.

Recently, natural antioxidants for the food industry have become an important focus. Cashew nut-shell liquid (CNSL) is composed of compounds that can act as natural antioxidants in food systems. The aim of this work was to evaluate the potential of CNSL and its components to act as natural antioxidants in a bulk oil system. CNSL was treated with calcium hydroxide to obtain two fractions [cardol/cardanols acid fraction (CCF) and anacardic acid fraction (AF)]. CNSL, FF and AF were analyzed by thin-layer chromatography and Fourier-transform infrared spectroscopy. The protective effects of CNSL, CCF and AF were tested in terms of the peroxide value of bulk soybean oil in accelerated assays and were compared against controls with and without synthetic antioxidants (CSA and CWA). CNLS, CCF, AF and CSA were tested at 200 mg/kg soybean oil by incubation at 30, 40, 50 and 60 °C for five days. The activation energy (Ea) for the production of peroxides was calculated by using the linearized Arrhenius equation. Thin-layer chromatography and Fourier-transform infrared spectroscopy revealed that (i) CNSL contained cardanols, anacardic acids, and cardols; (ii) CCF contained cardanols and cardols; and (iii) AF contained anacardic acids. CSA (Ea 35,355 J/mol) was the most effective antioxidant, followed by CCF (Ea 31,498 J/mol) and by CNSL (Ea 26,351 J/mol). AF exhibited pro-oxidant activity (Ea 8339 J/mol) compared with that of CWA (Ea 15,684 J/mol). Therefore, cardols and cardanols from CNSL can be used as a natural antioxidant in soybean oil.

Influence of genotype, agro-climatic conditions, cooking method, and their interactions on individual carotenoids and hydroxycinnamic acids contents in tubers of diploid potatoes.

The effects of genotype, agro-climatic conditions (ACC), and cooking method as well as their interactions on the content of individual carotenoids and hydroxycinnamic acids in different potato tubers were evaluated. While zeaxanthin content was highly influenced by the ACC (up to 631-fold change), chlorogenic acid was similarly influenced by the cooking method (up to 3.1-fold increase after cooking), by the interactions ACC × cooking method (up to 2.1-fold increase) and genotype × cooking method (up to 1.7-fold increase). Stability/extractability of compounds after cooking was found to be genotype and ACC dependent, which suggest that genotype and ACC induces differential expression of genes for the biosynthesis pathways of carotenoids and hydroxycinnamic acids is different among, as well as components of the cellular matrix. These results are promising to apply in potato breeding programs with the perspective to develop new potato cultivars selected by their nutritional attributes.

Natural variation of sucrose, glucose and fructose contents in Colombian genotypes of Solanum tuberosum Group Phureja at harvest.

BACKGROUND: Potato frying quality is a complex trait influenced by sugar content in tubers. Good frying quality requires low content of reducing sugars to avoid the formation of dark pigments. Solanum tuberosum Group Phureja is a valuable genetic resource for breeding and for genetic studies. The sugar content after harvest was analyzed in a germplasm collection of Group Phureja to contribute to the understanding of the natural variation of this trait. RESULTS: Sucrose, glucose and fructose genotypic mean values ranged from 6.39 to 29.48 g kg(-1) tuber dry weight (DW), from 0.46 to 28.04 g kg(-1) tuber DW and from 0.29 to 27.23 g kg(-1) tuber DW, respectively. Glucose/fructose and sucrose/reducing sugars ratios ranged from 1.01 to 6.67 mol mol(-1) and from 0.15 to 7.78 mol mol(-1) , respectively. Five clusters of genotypes were recognized, three of them with few genotypes and extreme phenotypic values. CONCLUSION: Sugar content showed a wide variation, representing the available variability useful for potato breeding. The results provide a quantitative approach to analyze the frying quality trait and are consistent with frying color. The analyzed germplasm presents extreme phenotypes, which will contribute to the understanding of the genetic basis of this trait. © 2016 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Effect of pectins on the mass transfer kinetics of monosaccharides, amino acids, and a corn oil-in-water emulsion in a Franz diffusion cell.

The effect of high (HMP) and low (LMP) methoxylated pectins (2%w/w) on the rate and extent of the mass transfer of monosaccharides, amino acids, and a corn oil-in-water emulsion across a cellulose membrane was evaluated. A sigmoidal response kinetic analysis was used to calculate both the diffusion coefficients (rate) and the amount of nutrients transferred through the membrane (extent). In all cases, except for lysine, HMP was more effective than LMP in inhibiting both the rate and extent of the mass transfer of nutrients through the membrane. LMP and HMP, e.g., reduced 1.3 and 3.0times, respectively, the mass transfer rate of glucose, as compared to control (containing no pectin), and 1.3 and 1.5times, respectively, the amount of glucose transferred through the membrane. Viscosity, molecular interactions, and flocculation were the most important parameters controlling the mass transfer of electrically neutral nutrients, electrically charged nutrients, and emulsified lipids, respectively.

Development and validation of a liquid chromatographic method to quantify sucrose, glucose, and fructose in tubers of Solanum tuberosum Group Phureja.

A High Performance Liquid Chromatography (HPLC) method was developed and validated to quantify sucrose (non-reducing sugar), glucose, and fructose (reducing sugars) in raw tubers of Solanum tuberosum Group Phureja. Chromatographic analysis was performed using an AMINEX HPX 87H column, at 18 °C, linked to a refraction index detector, at 35 °C. The eluent was 10mM sulfuric acid. The conditions established for the method provided an optimum separation of sugars, citric acid, and malic acid, with resolution values higher or equal to one. Among the four sugar extraction methods tested, the double 50% (v/v) aqueous methanol extraction gave the highest level of analytes. Recovery of this extraction method ranged between 94.14 and 99.77%. The HPLC method was validated for repeatability, reproducibility, linearity, and limits of detection, and quantification. Relative standard deviation was found to be lower than five, when testing repeatability and reproducibility, which is suitable considering a range of acceptability from 5.3 to 7.3. Additionally, the regression analyses supported the method linearity in a range of quantification from 3 to 100 mg/L with regression coefficients values greater than 0.998 for the three analytes. Limits of detection were 3.0 mg/L for the three sugars and limits of quantification were 2.0 mg/L for sucrose and 3.0 mg/L for glucose and fructose. Four Colombian commercial cultivars (Criolla Guaneña, Criolla Paisa, Criolla Galeras, and Criolla Colombia) and five landrace accessions from the Colombian Core Collection of Group Phureja were grown in the district of Usme (Bogotá) fields to analyze their sugar contents. Sucrose, glucose, and fructose contents were found ranging from 0.93 to 3.11 g/100 g tuber dried weight (DW), from 0.25 to 4.53 g/100 g tuber DW, and from 0.10 to 1.49 g/100 g tuber DW, respectively. Therefore, a high range in the variability of sugar contents was found among genotypes. However, the variability was low among technical replicates of the same genotype, revealing an accurate quantification of sugars in Group Phureja. This method can be used to assess the amount of reducing and non-reducing sugars accumulation in potato germplasm.

Interaction of a dietary fiber (pectin) with gastrointestinal components (bile salts, calcium, and lipase): a calorimetry, electrophoresis, and turbidity study.

An in vitro gastrointestinal model consisting of oral, gastric, and intestinal phases was used to elucidate the impact of pectin on the digestion of emulsified lipids. Pectin reduced the extent of lipid digestion, which was attributed to its binding interactions with specific gastrointestinal components. The interaction of pectin with bile salts, lipase, CaCl2, and NaCl was therefore investigated by turbidity, microstructure, electrophoresis, and isothermal titration calorimetry (ITC) at pH 7.0 and 37 °C. ITC showed that the interaction of pectin was endothermic with bile salts, but exothermic with CaCl2, NaCl, and lipase. Electrophoresis, microstructure, and turbidity measurements showed that anionic pectin formed electrostatic complexes with calcium ions, which may have decreased lipid digestion due to increased lipid flocculation or microgel formation because this would reduce the surface area of lipid exposed to the lipase. This research provides valuable insights into the physicochemical and molecular mechanisms of the interaction of pectin with gastrointestinal components that may affect the rate and extent of lipid digestion.

Impact of dietary fibers [methyl cellulose, chitosan, and pectin] on digestion of lipids under simulated gastrointestinal conditions.

A simulated in vitro digestion model was used to elucidate the impact of dietary fibers on the digestion rate of emulsified lipids. The influence of polysaccharide type (chitosan (cationic), methyl cellulose (non-ionic), and pectin (anionic)) and initial concentration (0.4 to 3.6% (w/w)) was examined. 2% (w/w) corn oil-in-water emulsions stabilized by 0.2% (w/w) Tween-80 were prepared, mixed with polysaccharide, and then subjected to an in vitro digestion model (37 °C): initial (pH 7.0); oral (pH 6.8; 10 min); gastric (pH 2.5; 120 min); and, intestinal (pH 7.0; 120 min) phases. The impact of polysaccharides on lipid digestion, ζ-potential, particle size, viscosity, and stability was determined. The rate and extent of lipid digestion decreased with increasing pectin, methyl cellulose, and chitosan concentrations. The free fatty acids released after 120 min of lipase digestion were 46, 63, and 81% (w/w) for methyl cellulose, pectin, and chitosan, respectively (3.6% (w/w) initial polysaccharide), indicating that methyl cellulose had the highest capacity to inhibit lipid digestion, followed by pectin, and then chitosan. The impact of the polysaccharides on lipid digestion was attributed to their ability to induce droplet flocculation, and/or due to their interactions with molecular species involved in lipid hydrolysis, such as bile salts, fatty acids, and calcium. These results have important implications for understanding the influence of dietary fibers on lipid digestion. The control of lipid digestibility within the gastrointestinal tract might be important for the development of reduced-calorie emulsion-based functional food products.

Estudio del coneenido de fenoles y actividad anioxidante de guayaba en diferenntes estados de madurez / Study of Phenolic Compounds and Antioxidant Activity of Guava in Different Stage of Ripening

Este trabajo estudió el contenido de compuestos fenólicos, actividad antioxidante y el contenido de vitamina C, en diferentes estados de madurez del fruto de tres variedades de guayaba de Colombia. Se trabajó con dos de alta producción silvopastoril, la regional roja (RR) y la regional blanca (RB) y una de carácter promisorio como es la variedad guavatá victoria (GV), todas provenientes de la región de la hoya del río Suárez (Santander, Colombia). Se obtuvieron extractos etanólicos y se evaluaron el contenido de fenoles libres, capacidades antioxidantes por ABTS•+ y DPPH•, FRAP, decoloración del ß- caroteno y el contenido de vitamina C por HPLC. La guayaba RB en estado maduro fue la variedad que mostró mayor valor de contenido de fenoles libres y mejores capacidades antioxidantes y la RR fue la que presentó mayor valor de contenido de vitamina C.

This work studied the phenolic content, antioxidant activity and the content of vitamin C in different stages of maturity of the fruits of three varieties of guava in Colombia. We worked with two wild varieties, the regional red (RR) and white regional (RB) and a promising character as is the variety guavatá victory (GV), all from the Suárez River region (Santander, Colombia). Ethanol extracts were obtained and evaluated free phenol content, antioxidant capacity by ABTS•+ and DPPH•, FRAP, bleaching of ß-carotene and vitamin C by HPLC. The RB when ripe showed higher value of free phenolic content and antioxidant capacities and best RR was the one with higher value of vitamin C.

Ablandamiento d frutos de pitaya amarilla (acathocereus pitajaya) a temperatuura ambiente y en refrigeración: actividad de poligalacturonasa, celulasa y xilanasa / Yellow Pitaya (Acanthocereus pitajaya) Fruit Softening During its Storage at Room Temperature and on Refrigerated Conditions: Polygalacturonase, Celualase and Xilanase Activities

Una de las mayores causas de pérdidas poscosecha de frutos de pitaya amarilla es su ablandamiento excesivo, el cual ha sido documentado previamente cuando la fruta es almacenada a temperaturas de cosecha o después de refrigeración. Además, tratamientos de choque térmico antes del almacenamiento refrigerado ofrecen control en el ablandamiento de estos frutos. Diferentes experimentos fueron llevados a cabo para evaluar el papel de algunas enzimas degradadoras de pared celular en el ablandamiento de frutos de pitaya amarilla: almacenamiento a 18 °C (TA) y refrigeración con choque térmico previo (ChT-R). Se incluyó también un tratamiento refrigerado control, sin choque térmico (control-R). Si midió el color de la corteza, la firmeza y las actividades de poligalacturonasa (PG), celulasa (CEL) y xilanasa (XIL). La evaluación del color indicó que los frutos almacenados a TA alcanzaron su madurez comercial luego de seis días. Luego de 12 días de almacenamiento a TA el pardeamiento y ablandamiento excesivo afectaron negativamente la calidad de los frutos. El pardeamiento y ablandamiento excesivo fueron detectados también en los frutos control-R cuando se movieron de 2 a 18 °C. Un ligero pardeamieno fue observado en los frutos ChT-R. Estos frutos alcanzaron su madurez comercial luego de 24 días de almacenamiento (nueve días luego de terminado el almacenamiento refrigerado). La actividad de XIL se asoció al ablandamiento en los frutos almacenados a TA y ChT-R. No se observó una clara correlación entre las actividades de PG y el ablandamiento, como tampoco entre CEL y el ablandamiento.

One of the major causes of yellow pitaya fruit loss during its marketing is its excessive softening, which has been previously documented when the fruit is stored at harvest temperature or after refrigeration. Furthermore, its excessive softening has been controlled by the application of heat shock treatments before refrigeration. Different experiments were carried out to evaluate the role of cell wall degrading enzymes on yellow pitaya fruit softening: storage at 18 °C (RT) as well as refrigeration with previous heat shock treatment (HS-R). A refrigerated control, without heat shock, was included (control-R). Peel color, firmness, poligalacturonase (PG), celulase (CEL) and xilanase (XIL) activities were measured. RT fruits reached the commercial ripeness after six days, as indicated by the color evaluation. After 12 days of storage at RT browning and excessive softening negatively affected the fruit quality. Browning and excessive softening were also detected in the control-R fruit when moving from 2 to 18°C. Minor browning was found in the HS- R fruit. HS-R fruit was full ripe 24 days of storage (nine days after finishing the refrigerated storage). XIL activity was associated to the softening in the RT and HS-R fruits. No clear correlation was observed between PG and softening neither between CEL and softening.

EXTRACCIÓN DE ENZIMAS PÉCTICAS DEL EPICARPIO DE LULO (Solanum quitoense Lam) INVOLUCRADAS EN EL PROCESO DE ABLANDAMIENTO / Exytraction of Pectic Enzymes from of Lulo(Solanum quitoense Lam) Involved in Softening

Durante el periodo de poscosecha el principal problema de deterioro del lulo (Solanum quitoense Lam) es el ablandamiento que es generado principalmente por actividad de enzimas pécticas que atacan la red estructural de la pared celular. Esta investigación se basó en la búsqueda de las mejores condiciones de extracción y medida de actividad de las enzimas pectinesterasa, poligalacturonasa y pectato liasa; herramientas necesarias para estudiar posteriormente el rol de estas enzimas en el deterioro por ablandamiento sufrido por el fruto debido a diversos cambios metabólicos. Se encontró que las dos primeras enzimas pueden ser extraídas simultáneamente con buffer fosfatos 20 mM pH 7,0 + NaCl 0,06 M y 60 min de extracción, relación 1:2 (material vegetal: buffer de extracción), a su vez, pectato liasa se extrajo con buffer fosfatos 20 mM pH 7,0 + cisteína 20 mM y 30 min de extracción, relación 1:3. Para la cuantificación de la actividad pectinesterasa es necesario incubar 15 min a 42 °C 2.500 µL de extracto enzimático crudo (EE) en buffer fosfatos 20 mM pH 7,0 + NaCl 0,15 M y 1,6% de pectina cítrica como sustrato, con valores de Km aparente de 3,78% de PC y Vmax 17,95 µmolH+/min*mg prot. Para la cuantificación de la actividad poligalacturonasa es necesario incubar 15 min a 37 °C 30 µL (EE) en buffer acetatos 200 mM pH 4,5 + NaCl 0,25 M y 1,0% de APG como sustrato, con valores de Km aparente 0,141% de APG y Vmax 28,46 nKat/s*mg prot. Para la cuantificación de la actividad pectato liasa es necesario incubar 2 min a 17 °C 100 µL (EE) en buffer TRIS:HCl 50 Mm pH 8,5 + CaCl2 4 mM y 0,1% de APG como sustrato, con valores de Km aparente 0,0865% de APG y Vmax 82,75 µg/s*mg prot.

The main problem of post-harvest deterioration of lulo (Solanum quitoense Lam) is the softening is the main problem of post-harvest deteriorarion of Lulo, that is generated mainly by the activity of pectic enzymes, which attack the structural network of the cell wall. This research was based on finding the best conditions structural cell wall network for extraction and measurement of enzyme activity pectinesterase (PE), polygalacturonase (PG) and pectato liasa (PL); tools needed to study the further role of these enzymes in the deterioration of pectatelyase fruit softening, due to various metabolic changes. It was found that the first two enzymes can be extracted simultaneously with 20 mM phosphate buffer pH 7.0, 0.06 M NaCl and 60 minutes of extraction, ratio 1:2 (plant material: extraction buffer), pectatelyase extracted with 20 mM phosphate buffer pH 7.0, 20 mM cysteine and 30 minutes of extraction, ratio 1:3. For quantification of pectinesterase activity is necessary to incubate 15 minutes at 42 ° C, 2500 µL of crude enzyme extract (EE) in 20 mM phosphate buffer pH 7.0, to 0.15 M NaCl and 1.6% citrus pectin as (CP) substrate with apparent Km values of 3.78% CP and Vmax 17.95 mol H+/min * mg prot. For the quantification of pectinesterase activity is necessary to incubate 15 minutes to 42 °C 2500 µL of crude enzyme extract (EE) in 20 mM phosphate buffer pH 7.0, 0.15 M NaCl and 1.6% citrus pectin as substrate with apparent Km values of 3.78% CP and 17.95 µ Vmax mol H+/min*mg prot. For the quantification of polygalacturonase activity is necessary to incubate 15 minutes to 37 °C 30 µL (EE) in 200 mM Acetate buffer pH 4.5, 0.25 M NaCl and 1.0% of APG as substrate, with apparent Km values 0.141% of APG and Vmax 28.46 nKat/s*mg prot. For the quantification of the pectatelyase activity is necessary to incubate 2 minutes to 17 °C, 100 µL (EE) in buffer TRIS: HCl pH 8.5, 50 mM 4 mM CaCl2 and 0.1% PGA as substrate, with apparent Km values 0.0865% of APG and Vmax 82.75 µg/s*mg prot.

BÚSQUEDA DE LAS MEJORES CONDICIONES PARA LA EXTRACCIÓN Y MEDIDA DE ACTIVIDAD DE CELULASA Y XILANASA EXTRAÍDAS DE LA CORTEZA DE PITAYA AMARILLA (Acanthocereus pitajaya) / Searching the Best Conditions for the Extraction and Activity Measurement of Cellulase and Xylanase Extracted from the Yellow Pitaya Fruit Peel (Acanthocereus pitajaya)

Para pitaya amarilla (Acanthocereus pitajaya) se ha encontrado que el ablandamiento excesivo de la cáscara contribuye al deterioro del fruto, al aplicar diferentes técnicas de conservación en fresco. Dado que tanto la celulasa como la xilanasa se han vinculado con el ablandamiento de la cáscara de frutos, este trabajo se basó en la búsqueda de las mejores condiciones de extracción y medida de actividad de celulasa y xilanasa. El mejor sistema de extracción fue buffer fosfato 20 mM, NaCl 0,5 M, pH 7,0. Para la medida de actividad de celulasa es necesario incubar durante 60 min a 37 ºC, con un volumen de extracto enzimático crudo de 30 µL, empleando buffer acetato 100 mM a pH 5,0; los valores de constante aparente de Michaelis Menten (K M aparente) y velocidad máxima (V MÁX) fueron 0,279 mg/mL y 0,00014 nmol glucosa/min, respectivamente. Para determinar la actividad de xilanasa se establecieron 15 min de tiempo de incuba-ción, a 50 ºC, empleando 30 µL de extracto enzimático crudo a pH 4,0 (buffer acetato 100 mM); los valores de K M aparente y V MÁX para xilanasa fueron 0,073 mg/mL y 0,0011 nmol glucosa/min, respectivamente.

By applying different conservation techniques on yellow pitaya fruit (Acanthocereus pitajaya) it has been found that excessive softening of the peel contributes to the deterioration of the fruit. Due to that both cellulase and xylanase have been related to the softening of the fruit's peel; this work was based on the search of the best conditions not only for the extraction, but also for the activity measurement of both cellulase and xylanase. The best extraction system for both enzymes was 20 mM buffer phosphate, 0.5 M NaCl, pH 7.0. For the cellulase activity measurement it was necessary to incubate during 60 min at 37 ºC, with a volume of raw enzymatic extract of 30 µL, using buffer acetate 100 mM at pH 5,0; the values of apparent K M and V MÁX were 0.279 mg/mL and 0.00014 nmol glucose/min, respectively. To determine the xylanase activity it was necessary to incubate during 15 min, at 50 ºC, using 30 µL of raw enzymatic extract at pH 4.0 with 100 mM buffer acetate; the values of apparent K M and V MÁX for this enzyme were 0.073 mg/mL and 0.0011 nmol glucose/min, respectively.

INHIBICIÓN DE LESIONES POR FRÍO DE PITAYA AMARILLA (Acanthocereus pitajaya) A TRAVÉS DEL CHOQUE TÉRMICO: CATALASA, PEROXIDASA Y POLIFENOLOXIDASA / Inhibition of Chillyng Injury in Pitaya Amarilla (Acanthocereus pitajaya) Fruit by Heat Shock: Catalese, Peroxidase and Polyphenoloxidase

En los ensayos de almacenamiento de pitaya a temperatura ambiente de Bogotá (18 ºC) se encontró que esta fruta tiene un comportamiento climatérico con un máximo en la respiración luego de tres días de iniciado el almacenamiento. En el máximo climatérico la actividad de catalasa fue máxima, en tanto que en la etapa de senescencia las actividades de peroxidasa y polifenoloxidasa exhibieron valores máximos. El choque térmico inhibió las lesiones por frío, vistas en los frutos refrigerados a 2 °C, este choque incrementó la actividad de catalasa y peroxidasa y disminuyó la actividad de polifenoloxidasa, respecto a los frutos refrigerados sin tratamiento de choque térmico. Los resultados muestran que la catalasa está en relación directa con la vida útil del fruto, mientras que polifenoloxidasa guarda estrecha relación con el deterioro. La peroxidasa manifiesta su acción antioxidante con la generación de pardeamiento, en frutos almacenados a temperatura ambiente, si bien en los tratados con choque térmico, su acción antioxidante no va de la mano con el incremento en el pardeamiento, por lo que en este caso, su expresión fue favorable. Los resultados encontrados se constituyen en un aporte en la búsqueda de técnicas que permitan mayores tiempos de vida en anaquel de los frutos.

In the storage of yellow pitaya fruit at room temperature in Bogotá (18 ºC), it was found that this fruit has a climacteric behavior with a maximum in the respiration after 3 days of its storage. In the climacteric the activity of catalase was higher, while in the senescence stage the activities of peroxidase and polyphenoloxidase exhibited maximum values. The heat shock inhibited the chilling injury, shows in the fruits refrigerated at 2 °C, this heat shock increased the activity of catalase and peroxidase and it delayed the activity of polyphenoloxidase, regarding the fruits refrigerated without treatment of heat shock. The results show that catalase is in direct relationship with the useful life of the fruit, while polyphenoloxidase keeps it narrows relationship with the deterioration. In fruits stored at room temperature, peroxidase exhibited its antioxidant action with browning generation, although in the treaties with heat shock, their antioxidant action doesn’t go of the hand with increment in the browning, for that in this case, its expression was favorable. The opposing results are constituted in a contribution in the search of techniques that allow bigger times of life in shelf of the fruits.

Estudio de la actividad enzimatica de poligalacturonasaen la corteza de pitaya amarilla (Acanthocereus pitajaya) / Polygalacturonase Activity in Yellow Pitaya Peel (Acanthocereus pitajaya)

Se determinó la actividad poligalacturonasa en corteza de pitaya amarilla (Acanthocereus pitajaya). El buffer fosfato de sodio 20 mM pH 7,0 con NaCl 0,5 M se constituyó en el sistema más efectivo para la extracción. Se obtuvieron valores óptimos de actividad a pH 5,0 en buffer citratos, a una temperatura de 40 °C. Los valores de KM y VMÁX hallados para esta enzima fueron 2,9 mg ácido poligalacturónico/ml y 0,076 nmol de azúcares reductores/s, respectivamente. Los resultados muestran que la poligalacturonasa está vinculada con el ablandamiento de este fruto.