Effect of thermochemical treatment on the structure of inulin and its gelling properties

The aim of this study was to investigate rheological properties of inulin gels and the changes in the inulin structure after heating the high polymerised inulin (DP ≥ 23) solutions at different pH. The 20% inulin solutions were heated at pH 3, 5 and 7 at 60 and 80 °C followed by 21 h storage at 5 and 25 °C. Rheological properties evaluation indicated that the increase in the heating time and temperature significantly (P ≤ 0.05) influenced on the inulin structure. Reducing sugars, cryoscopy and HPLC analysis revealed that chemical structure of inulin is stable in neutral and slightly acidic conditions (pH 5). Gelation of the high polymerised inulin solution after heating at pH 7 and 80 °C could be inhibited after dissolving the inulin crystallites which act like seeding crystals. At lower temperatures in which, not all crystallites were dissolved; it was feasible for the solutions to form firm inulin gels.     

Effects of inulin,fructooligosaccharides/glucose and pH on the shape of the death kinetic of Lactobacillus reuteri DSM 20016

The viability of Lactobacillus reuteri, Lb. delbrueckii subsp. bulgaricus and Lb. paracasei was assessed in a laboratory medium containing inulin (5 g L^?1) or glucose + FOS (fructooligosaccharides) (2.5 + 2.5 g L^?1). Data were modelled through the Weibull equation pinpointing that prebiotics determined a decrease in the shape parameter. In the 2nd step, L. reuteri was used as the test microorganism; pH, storage temperature and the amounts of FOS + glucose and inulin were combined through a 4‐variable/5‐level central composite design. Temperature, pH and glucose + FOS affected the microbiological shelf life; inulin was not significant. The maximum value of shelf life was found at pH 8.5 and with 5.0 g L^?1 of glucose + FOS. The combination of pH and prebiotics affected the shape parameter with a shift from a convex to a concave trend and vice versa: their effect was different depending on the use of a single prebiotic or a mix.     

金属抗菌肽SIF4对金黄色葡萄球菌细胞通透性的影响机制

为探明金属抗菌肽SIF4对金黄色葡萄球菌细胞通透性的影响机制,从胞外碱性磷酸酶活性、细胞表面电位、细胞表面疏水性、细胞内膜通透性和胞内生物大分子泄漏等角度考察了SIF4对细胞通透性的影响。研究发现,SIF4可破坏细胞壁结构完整性,随着抗菌肽质量浓度和温育时间的延长,胞外碱性磷酸酶活性也同步增长,2MIC组与TritonX-100组无显著差异（P>0.05）;细胞表面电位与SIF4质量浓度呈负相关关系;细胞表面疏水性与SIF4质量浓度呈良好的量-效正相关关系;细胞内膜通透性与抗菌肽质量浓度和温育时间呈正相关;胞内生物大分子泄漏与抗菌肽质量浓度和温育时间呈正相关,温育1 h时,胞内蛋白质泄漏呈差异性显著（P<0.05）,温育3 h后,2MIC与TritonX-100细胞内生物大分子泄漏差异基本不显著（P>0.05）。结果表明,SIF4可增强细胞通透性并使胞内物质泄漏,还能增强细胞表面疏水性和降低细胞表面电位,使细胞聚沉并诱导细胞坏死。     

Application of Response Surface Methodology to Improve Fermentation Time and Rheological Properties of Probiotic Yogurt Containing Lactobacillus reuteri

Response surface methodology was employed to investigate the combined effects of inulin addition (0–4% w/w), probiotic inoculum level (1–3% v/v), and fermentation temperature (37–45 °C) on fermentation time and rheological properties of nonfat-set yogurt. The rheological characteristics were measured by dynamic oscillatory rheometery. The second-order polynomial model was fitted to the fermentation time (T _f), structure strength (A value), resistance to mechanical force or yield stress (τ _y), and complex viscosity (ŋ*) of runs as the responses. Analysis of variance revealed that the quadratic models are well adjusted to predict the experimental data. Lack-of-fit tests were not significant and determination coefficients (R ²) were higher than 88.6%. The results showed that fermentation time decreased with increasing inulin content, incubation temperature, and probiotic inoculum level. Rheological properties significantly influenced by independent variables. Inulin addition had a softening effect on yogurt. However, the effect of incubation temperature on structure strength was positive. Medium levels of probiotic inoculum resulted in stronger gels.     

Design and characterisation of an enzyme system for inulin hydrolysis

The optimal conditions for inulin hydrolysis using a commercial inulinase preparation, either free or immobilised in activated Amberlite were established by factorial design and surface response methodology. The immobilised biocatalyst displayed highest activity at pH 5.5 and 50 °C, whereas the optimum pH for the free form was slightly more acidic (4.5), and the optimum temperature was a little higher (55 °C). The model system estimated optimal pH and temperature values of 5.4 and 52 °C for the immobilised system and 4.9 and 56 °C for the free system. Michaelis–Menten type kinetics adequately described both free and immobilised bioconversion systems, which were evaluated under the respective optimal pH and temperature conditions. The use of a non-linear regression method for the determination of the kinetic parameters provided a best fit to the experimental data, as compared to a conventional Lineweaver–Burk linearisation. The K_m for inulin of the free biocatalyst was 153 g l⁻¹ at 55 °C and pH 4.5, whereas the apparent K_m for inulin of the immobilised biocatalyst was 108 g l⁻¹ at pH 5.5 and 50 °C. The reutilisation of the immobilised biocatalyst throughout consecutive batches was evaluated. A significant decrease of enzyme activity was observed in the first two batches, after which the system exhibited significant stability. The low cost of the support, the stability of the immobilised biocatalyst towards pH and temperature and its high affinity for the substrate suggests its potential for inulin hydrolysis.     

Supplemental inulin does not enhance iron bioavailability to Caco-2 cells from milk- or soy-based,probiotic-containing,yogurts but incubation at 37 °C does

The in vitro effects of supplemental inulin (4%) on iron (Fe) availability in two different probiotic-containing yogurts were examined. Milk or soy-based yogurts, with and without inulin, were incubated (37 °C) for 48 h or without any incubation before comparison by an in vitro gastrointestinal digestion/Caco-2 cell culture model was used to assess iron bioavailability. The dialysable Fe fraction, cell ferritin formation, and cell associated Fe were monitored. Supplemental inulin decreased dialysable Fe only in non-incubated milk-based yogurt. In both yogurts incubation by itself increased dialysable Fe, and inulin increased the latter only in soy-based yogurt. Cellular ferritin concentration were higher after exposure to non-incubated milk-based than soy-based yogurt, although, after incubation the latter induced the highest ferritin formation. These data suggest that inulin does not have a direct effect on Fe bioavailability in the small intestine, and that probiotic bacteria play an enhancing role on Fe bioavailability.     

Effect of Resistant Starch and Inulin on the Properties of Imitation Mozzarella Cheese

The effect of two fat replacers (inulin and resistant starch) on functional properties and microstructure of imitation Mozzarella cheeses was evaluated. Three groups of imitation Mozzarella cheeses were manufactured by adding 0, 2.4, 4.8, 7.2, 9.6, and 12% (w/w) inulin or resistant starch instead of the fat, respectively. Inclusion of the inulin up to 7.2% in cheese, fat content of it was significantly (p ≤ 0.05) decreased and the moisture and pH values of it were significantly (p ≤ 0.05) different. Inclusion of resistant starch up to 9.6% in cheese, fat content of it was significantly (p ≤ 0.01) decreased and the moisture and pH values of it were significantly (p ≤ 0.05) different. The physical properties of these cheeses were significantly different (p ≤ 0.05) among them. The textural properties were determined by instrumental texture pro?le. With increased levels of inulin or resistant starch from 2.4 to 12% (w/w), the hardness of the resultant imitation cheeses were significantly increased (p ≤ 0.05), while the cohesiveness and springiness decreased and the meltability and stretch ability had reduced (p ≤ 0.05), compared with the control, especially containing resistant starch stretch ability had reduced more. The microstructure of imitation Mozzarella cheese was observed by scanning electron microscopy. The scanning electron microscopy results indicated that interactions between casein and inulin or resistant starch in imitation cheeses accounted for variance properties of imitation cheese. It is concluded that inulin or resistant starch could be used to replace up to 7.2% of the fat in imitation cheese and that the preferred substitution was inulin.     

Using a polynomial model for fungi from table olives

Table olives are one of the most important fermented vegetables in the food industry because of their worldwide economic importance. Enterobacteriaceae, lactic acid bacteria and yeasts are among the most relevant microorganisms involved in olive fermentation determining safety, quality and flavour of the final product. Fungi can play a double role during table olive processing acting as spoilage or desirable microorganisms. This article addresses the effects of some factors (pH, NaCl, temperature, phenols) on the growth/survival of yeasts and moulds, both some wild isolates from olive brine and some yeasts from a public collection (Pichia guilliermondii, P. holstii, Wickerhamomyces anomalus). The research was divided into two steps: a 1st step was aimed at assessing fungal growth by evaluating separately each factor; in a 2nd step, NaCl, pH and temperature were combined through a simple DoE (design of experiment). For this last step, W. anomalus and P. guilliermondii were used as test fungi. Generally, fungi were not inhibited either by temperature, salt or acidic/alkaline pHs. Moreover, the approach of DoE pinpointed that the effect of some factors could experience a shift and change over the time.     

The effect of annealing on resistant starch content of different crop types: a systematic review and meta-analysis study

The growing demand for functional foods with a high resistant starch content (per cent RS) could be met by annealing starch modification. Through a meta-analysis, this study sought to shed light on the effect of annealing on the resistant starch content of various crop types. Twenty-one studies published between 2000 and 2020 were selected and eighty data points were extracted to be analysed using meta-essential tools. Hedge’s d Standardised Mean Difference (SMD) was designated for the effect size approach. Resistant starch content was influenced by the botanical origin of the carbohydrate source and the annealing parameters such as moisture content, incubation time and temperature. According to a meta-analysis of the data collected, the most significant increase in per cent RS is perceived on cereal (SMD: 7.58; 95% CI: 2.88–12.29; P = 0.001). Further analysis revealed that normal wheat had the highest significant per cent RS increase (SMD: 41.56; 95% CI: 19.52–63.61; P = 0.001). Annealing parameters resulted in significant %RS increase were moisture content of 80%, incubation time of 24 h and incubation temperature of 50–54 °C. These results were expected to provide data to optimise per cent RS increase through annealing efficiently.     

Flocculation,cell surface hydrophobicity and 3‐OH oxylipins in the SMA strain of Saccharomyces pastorianus

Three‐hydroxy‐oxylipins (3‐OH oxylipins) have been previously detected in brewing yeast production strains at flocculation onset. In this work, the SMA strain of Saccharomyces pastorianus was characterized during growth in a miniature fermentation assay by measuring flocculation and cell surface hydrophobicity (CSH). Proportions of 3‐OH oxylipin were also measured concurrently during growth in the miniature fermentation assay and a defined 3‐OH oxylipin extraction protocol using ethyl acetate is presented along with a novel derivatization and gas chromatography–mass spectrometry (GC‐MS) detection approach. When the SMA strain was grown in the assay, near maximal CSH and flocculation levels were achieved by a 36 h fermentation time. Under the same culture conditions, the oxylipin 3‐OH decanoic acid (3‐OH 10:0) was identified. This oxylipin could not be detected early in the fermentation, but elevated relative levels of 3‐OH 10:0 were reached by 36 h, coinciding with increased CSH levels. It was previously presumed that the formation of 3‐OH oxylipins at flocculation onset might increase the CSH. However, results from this study suggest that 3‐OH 10:0 may not contribute to cell wall hydrophobicity. The flocculation behaviour of the SMA strain was also monitored in the presence of 3‐OH 10:0, but exposure to this oxylipin did not impact the sedimentation of this yeast, suggesting that 3‐OH oxylipins may not act as mediators of quorum sensing in this strain. Copyright © 2015 The Institute of Brewing & Distilling     

Empirical Modeling of Starch Ester Synthesis from Octenylsuccinic Anhydride

In the present work, response surface methodology (RSM) was used to determine the mathematical relationship between octenylsuccinic anhydride (OSA) treated maize starch and the octenylsuccinylation reaction conditions. A second‐order polynomial model was chosen to approximate the relationship between the response variable (y, as the degree of substitution “DS” used to define the extent of the octenylsuccinylation) and the three regressors, x₁ as the temperature, x₂ as the time and x₃ as the pH. Analysis of variance (ANOVA) showed a high R² coefficient of 0.9905, thus ensuring a satisfactory adjustment of the selected model with the experimental data. Only temperature‐pH interaction was found to have a non‐significant effect. The positive sign for the regression coefficient of the temperature variable indicated that the y_DS increased with the increased levels of this factor from 25 to 45°C. The negative sign for the coefficient of time and also pH indicated that y_DS decreased as either the time or pH increased in the region of the tested range. The negative coefficients of the interaction between x₂ and x₃ indicated that a simultaneous increase in reaction time with decrease in pH of the esterification reaction led to an increase in y_DS. Maize starch octenylsuccinate synthesis on basis of its DS value was optimized for the three independent variables tested in this study. The predicted value for the DS was 0.02 where temperature, time and pH of the reaction were 28.0°C, 8.1 h, and pH 7.11, respectively. Results of some of the selected physicochemical properties of starch, tested in the present work were also discussed.     

Gelation of Persimmon Puree and Its Prevention by Enzymatic Treatment

Fresh persimmon puree showed a rheological behavior corresponding to a weak gel, where storage modulus (G′) prevailed over loss modulus (G″). In a temperature sweep test (from 25–80–25 °C), G′ values increased at temperatures above 60 °C and continued increasing during the subsequent cooling step showing a wide scattering. These changes indicated a gelation phenomena that resulted in a more rigid and irregular gel structure. The gelation was lower in the acidified puree (pH 4.4) than in the puree at its natural pH (5.9). The addition of ethylenediaminetetraacetate sodium avoided the increase of G′ during the heating and reduced the G′ increase in the cooling step. Thus, gelation in persimmon puree occurred by a heat-set gelation influenced by pH, and also by cold-set gelation depending on an ionotropic mechanism. The incubation of persimmon puree with Viscozyme L (1 g/L, 25 °C, 30 min) allowed to obtain a more fluid product able to tolerate a thermal processing at 85 °C without gelation. During the incubation with Viscozyme L, the pH of the persimmon puree decreased monotonically as a consequence of its pectinmetylesterase activity, and the continuous measurement of pH could be used to monitor this process.     

Lipolytic activities of two strains of Aspergillus aculeatus associated with the spoilage of two food sources

The production of extracellular lipolytic enzymes by 2 strains of Aspergillus aculearus associated with the deterioration of peanuts and a marketed margarine in Nigeria and the effects of temperature and pH on the activities of the enzymes were investigated. Lipolytic enzymes were detected within 2 days of incubation at 35 °C in 4 out of 6 natural oils and in 3 out of 4 synthetic glycerides used irrespective of strain type. The lipolytic enzymes of both strains hydrolysed both natural oils and synthetic glycerides to free fatty acids. There was correlation between the mycelium produced to the quantity of free fatty acids produced in medium within the first 8 days of incubation. There was a general increase in mycelium production with increase in incubation period. The enzyme activities were at peak at 30-35 °C and at pH 6-7.     

Chicory inulin does not increase stool weight or speed up intestinal transit time in healthy male subjects

Inulin is a non-digestible oligosaccharide classified as a prebiotic, a substrate that promotes the growth of certain beneficial microorganisms in the gut. We examined the effect of a 20 g day(-1) supplement of chicory inulin on stool weight, intestinal transit time, stool frequency and consistency, selected intestinal microorganisms and enzymes, fecal pH, short chain fatty acids and ammonia produced as by-products of bacterial fermentation. Twelve healthy male volunteers consumed a well-defined, controlled diet with and without a 20 g day(-1) supplement of chicory inulin (degree of polymerization (DP) ranging for 2-60), with each treatment lasting for 3 weeks in a randomized, double-blind crossover trial. Inulin was consumed in a low fat ice cream. No differences were found in flavor or appeal between the control and inulin-containing ice creams. Inulin consumption resulted in a significant increase in total anaerobes and Lactobacillus species and a significant decrease in ammonia levels and β-glucuronidase activity. Flatulence increased significantly with the inulin treatment. No other significant differences were found in bowel function with the addition of inulin to the diet. Thus, inulin is easily incorporated into a food product and has no negative effects on food acceptability. Twenty grams of inulin was well tolerated, but had minimal effects on measures of laxation in healthy, human subjects.     

菊粉添加量对低脂羊肉乳化香肠品质的影响

为开发低脂羊肉乳化香肠新产品,采用菊粉作为脂肪替代物,研究不同添加量（0%、2%、4%、6%、 8%、10%）菊粉对低脂羊肉乳化香肠持水力、色泽、质构和感官品质的影响。结果表明：添加菊粉能够增强低脂羊 肉乳化香肠的持水力,提高香肠红度值（a*）,增加硬度和咀嚼性,改善低脂羊肉乳化香肠的感官品质;当菊粉添 加量为6%时,低脂羊肉乳化香肠的持水性和硬度与高脂组香肠差异不显著,而a*显著提高（P＜0.05）,并且低脂 羊肉乳化香肠的总体可接受度评分从（4.78±0.85）分提高到（6.35±1.39）分,高于高脂组评分（5.68±1.34）分。 因此6%是低脂羊肉乳化香肠中较理想的菊粉添加量。     

Effect of inulin on the rheological properties of silken tofu coagulated with glucono-δ-lactone

This study investigated the rheological properties of inulin-containing silken tofu coagulated with glucono-δ-lactone (GDL) upon heating. Inulin (Raftiline^® HP-gel) was added to a soy protein isolate-enriched cooked soymilk at 0%, 1%, 2%, 3% and 4% (w/v) levels along with 0.4% (w/v) GDL to prepare acid-induced silken tofu. Gelation was induced by heating the soymilk mixture from 20 to 90 °C at a constant rate (1 °C/min) or isothermally at 90 °C for 30 min. The gelling properties were measured with dynamic small-deformation mechanical analysis and static large-deformation compression tests. The rheological changes in soymilk during gelation were dependent upon both the pH decline (hydrolysis of GDL) and the specific temperature of heating. Control samples heated to 50 °C, with the pH lowered to 5.95, started to gel, showing a rapid increase in storage (G′) and loss (G″) moduli afterwards. The addition of 2% inulin lowered the on-set gelling temperature by 2.8 °C and improved (P < 0.05) both rheological parameters of the tofu gel as well as hardness and rupture force (textural profile analysis) of the formed silken tofu. The results indicated that inulin enhances the viscoelastic properties of GDL-coagulated silken tofu, and the textural effect of inulin is an added benefit to its current application mainly as a prebiotical ingredient in food.     

Effects of inulin/oligofructose on the thermal stability and acid-induced gelation of soy proteins

ABSTRACT:  Differential scanning calorimetry (DSC) and dynamic oscillatory shear testing were performed to study the influence of inulin (Raftiline^® HP-gel and Raftiline^® ST-gel) and oligofructose (Raftilose^® P95) on the thermal stability and gelation (using glucono-δ-lactone [GDL] as a coagulant) of soy protein isolate (SPI) dispersions. Addition of 10% (w/v) inulin/oligofructose or sucrose increased ( P < 0.05) the peak denaturation temperatures ( T_m ) of 7S and 11S soy proteins in SPI dispersion (5%[w/v], pH 7.0) by an average of 1.9 and 2.3 °C, respectively. GDL induced SPI thermal gelation, and the gel rheology was affected by both the pH decline and the specific temperature of heating. Addition of inulin/oligofructose (8%, w/v) improved the gelling properties of preheated SPI dispersion (8%, w/v) coagulated with GDL, showing 14.4 to 45.6% increase ( P < 0.05) in gel rigidity ( G ' value) at the end of heating (81 °C). Microstructural examination revealed a denser protein cross-linking structure and reduced pore sizes in SPI gels containing inulin/oligofructose. In general, inulin was more capable of improving SPI gelation than oligofructose, suggesting that the degree of fructose polymerization in the fructans was of thermal and rheological importance.     

In vitro evaluation of the probiotic potential of bacteriocin producer Lactobacillus sakei 1

Lactobacillus sakei 1 is a food isolate that produces a heat-stable antimicrobial peptide (sakacin 1, a class IIa bacteriocin) inhibitory to the opportunistic pathogen Listeria monocytogenes. Bacterial isolates with antimicrobial activity may be useful for food biopreservation and also for developing probiotics. To evaluate the probiotic potential of L. sakei 1, it was tested for (i) in vitro gastric resistance (with synthetic gastric juice adjusted to pH 2.0, 2.5, or 3.0); (ii) survival and bacteriocin production in the presence of bile salts and commercial prebiotics (inulin and oligofructose); (iii) adhesion to Caco-2 cells; and (iv) effect on the adhesion of L. monocytogenes to Caco-2 cells and invasion of these cells by the organism. The results showed that L. sakei 1 survival in gastric environment varied according to pH, with the maximum survival achieved at pH 3.0, despite a 4-log reduction of the population after 3 h. Regarding the bile salt tolerance and influence of prebiotics, it was observed that L. sakei 1 survival rates were similar (P > 0.05) for all de Man Rogosa Sharpe (MRS) broth formulations when tests were done after 4 h of incubation. However, after incubation for 24 h, the survival of L. sakei 1 in MRS broth was reduced by 1.8 log (P < 0.001), when glucose was replaced by either inulin or oligofructose (without Oxgall). L. sakei 1 was unable to deconjugate bile salts, and there was a significant decrease (1.4 log) of the L. sakei 1 population in regular MRS broth plus Oxgall (P < 0.05). In spite of this, tolerance levels of L. sakei 1 to bile salts were similar in regular MRS broth and in MRS broth with oligofructose. Lower bacteriocin production was observed in MRS broth when inulin (3,200 AU/ml) or oligofructose (2,400 AU/ml) was used instead of glucose (6,400 AU/ml). L. sakei 1 adhered to Caco-2 cells, and its cell-free pH-neutralized supernatant containing sakacin 1 led to a significant reduction of in vitro listerial invasion of human intestinal Caco-2 cells.     

菊粉酸降解动力学研究

通过考察温度、溶液pH值及水分含量对菊粉酸降解的影响,探索菊粉酸水解规律。结果表明:菊粉水溶液在pH 5.0～7.0、温度低于100℃时具有良好的稳定性;但当pH值低于4.0时,菊粉出现明显的水解反应。菊粉溶液在不同温度和pH值下的酸降解动力学表明,其水解反应遵循一级反应动力学方程。利用菊粉凝胶特性考察水分含量与菊粉酸降解的关系,发现相同pH值(pH=3)条件下,水分含量越高,菊粉降解速率越快,凝胶中菊粉降解速率低于菊粉水溶液降解速率。     

Effect of amino acid,pH and mineral salts on glass transition and flow behaviour of soy protein concentrate

The objective of this study was to assess the effect of proline, mineral salts (NaCl and Na₂SO₄) and pH combined with moisture content on the glass transition temperature (T_g) and flow‐starting temperature (T_f) of soy protein concentrate (SPC). Initial screening of the variables based on fractional factorial design showed insignificant effect of NaCl on T_g and T_f. The design was extended to a face‐centred central composite design (CCD) excluding NaCl and data evaluated by use of response surface methodology. The established model for T_g (R² = 0.824) shows significant negative first‐order effects of moisture, proline and Na₂SO₄, and a positive interaction effect of moisture and Na₂SO₄. The T_f model (R² = 0.937) shows significant negative first‐order effects of moisture and proline, a positive first‐order and negative square effect of pH, and a negative interaction effect of moisture and proline. The main effect on T_g and T_f was 2.2 and 1.3 times higher, respectively, for moisture compared to proline. The study confirms that proline (or other free amino acids) can replace moisture as protein plasticiser in the extrusion process. Minor effects can also be obtained by reduction in pH.