添加葡萄球菌和微球菌对广式腊肠亚硝酸盐残留量和色泽研究

本文旨在研究葡萄球菌和微球菌对广式腊肠亚硝酸盐残留量和色泽的影响及其机制。首先将分离筛选自广式腊肠的两株优良特性菌株(葡萄球菌H33B和微球菌X142B)接种至腊肠测定相关指标,然后通过紫外扫描图谱来确定菌株是否具有转化高铁肌红蛋白能力。结果表明,接种单菌和混合菌株都能够降低腊肠中的高铁肌红蛋白含量和亚硝酸盐残留量,并且能够增加亚硝基肌红蛋白含量,其中以接种葡萄球菌和微球菌2:1时效果最好,与对照组差异明显(p0.05);紫外扫描图谱显示接种葡萄球菌的培养基中溶液出现了亚硝基肌红蛋白的特征吸收峰,并且溶液中的亚硝酸盐含量最低。这些结果表明葡萄球菌H33B具有转化高铁肌红蛋白的能力。因此添加葡萄球菌H33B的腊肠,由于其具有转化高铁肌红蛋白的能力,会形成更多的还原性肌红蛋白与亚硝酸盐反应,不仅进一步减少了亚硝酸盐含量还改善了色泽。     

Effects of lactate on ground lamb colour stability and mitochondria-mediated metmyoglobin reduction

Previous research suggests that lactate’s colour stabilizing effect in beef is through NADH production and antioxidant activity. However, no research has assessed lactate’s role in lamb colour. Hence, our objectives were to evaluate the effects of lactate on lamb surface discolouration, oxygen consumption, and metmyoglobin reduction. In experiment 1, lactate (final meat concentration = 2.5% w/w) was added to ground lamb (n = 20 carcasses) and patties were stored for 3 days at 1 °C in PVC packaging. Surface colour (CIE L∗ and a∗) and metmyoglobin reducing activity of ground lamb patties were measured. Addition of lactate improved colour stability and metmyoglobin reducing activity (p < 0.05). In experiment 2, mitochondria were isolated from lamb longissimus muscle (n = 3). Addition of lactate–LDH–NAD to mitochondria resulted in significant oxygen consumption and metmyoglobin reduction compared with mitochondrial controls without lactate (p < 0.05). Lactate can improve the colour stability of lamb, possibly by increasing metmyoglobin reducing activity.     

INDIVIDUAL AND COMBINED LISTERICIDAL EFFECTS OF SODIUM LACTATE, POTASSIUM SORBATE, NISIN AND CURING SALTS AT REFRIGERATION TEMPERATURE

The individual and combined antilisterial activity of the preservatives sodium lactate (4%), potassium sorbate (0.3%) and nisin (400 IU/ml), in either the presence or absence of the curing salts nitrite (125 ppm) and polyphosphate (0.5%), was assessed in buffered BHI broth (pH 5.5) during incubation at 4C. A cocktail of the strain Listeria monocytogenes NCTC 7973 and two food derived strains was used as the inoculum in challenge studies. In the absence of the preservatives , L. monocytogenes grew in the presence of polyphosphate but not in the presence of nitrite or a combination of nitrite and polyphosphate. The antilisterial action of nitrite was predominantly bacteriostatic in nature. Lactate acting alone, or in the presence of curing salts, produced a bacteriostatic effect. Sorbate acting alone had a bacteriostatic effect. Sorbate acting in the presence of nitrite or nitrite and polyphosphate produced a marked listericidal effect, reducing the population by 6.7 logs and 5.4 logs, respectively. Nisin acting alone produced an almost immediate 90% listericidal response (1 log population decrease), but initial numbers were restored within 14 days by regrowth. Regrowth was eliminated when nisin was used in combination with lactate, nitrite or nitrite and polyphosphate. The combination of lactate and sorbate offered no advantage over the use of sorbate alone. Sorbate and nisin acting in combination produced an enhanced listericidal effect, which was also seen in the presence of curing salts, but was delayed. No listericidal advantage over sorbate-nisin combination was achieved through the use of the lactate-sorbate-nisin combination. The combined use of sorbate and nisin offers promise as a means of eliminating L. monocytogenes from low pH cured meat products. The efficacy of this preservative combination remains to be evaluated in a meat system before its practical application can be considered .     

Metmyoglobin reducing activity and colour stability of ovine longissimus muscle

Characteristics of metmyoglobin reducing activity in ovine longissimus were determined, and its effect on colour and colour stability of muscle was investigated in two experiments. In the first experiment vacuum packed ovine longissimus samples were incubated at 5–35°C during the first 16 h post mortem (n=8 per treatment). Metmyoglobin reducing activity was negatively affected by incubation temperatures above 30°C, but colour and colour stability were little affected at 24 h post mortem and after 2 weeks of vacuum storage at 2°C. In the second experiment the effects of pre-slaughter stress and electrical stimulation on metmyoglobin reducing activity, colour and colour stability of ovine longissimus (n=40) with an ultimate pH below 5.8 were investigated. Neither of the treatments had an effect on metmyoglobin reducing activity or colour parameters. The relatively large variation in metmyoglobin activity and colour parameters allowed correlation analysis. Metmyoglobin reducing activity was not correlated to colour or the colour stability parameters. The results of the present study indicate that metmyoglobin reducing activity is not the primary determinant of colour or colour stability of ovine longissimus muscle.     

柠檬膳食纤维对午餐肉中亚硝酸盐残留量的影响

目的：研究柠檬膳食纤维（dietary fiber,DF）在午餐肉中的应用,确定其最适添加量以及在午餐肉中的抗氧化特性,还考察了柠檬DF对午餐肉中亚硝酸盐残留量的影响。方法：在午餐肉中添加不同用量（0%、0.5%、1.0%、1.5%、2.0%）的柠檬DF,从感官角度确定柠檬DF的最适添加量,并考察添加柠檬DF后午餐肉对自由基的清除能力及其亚硝酸盐残留量变化。结果：柠檬DF在午餐肉中的最适添加量为0.5%～1.0%,此时午餐肉的色泽、滋味、组织状态等指标都较好,感官指标与传统配方产品没有显著差异;1.0%的柠檬DF添加量对O2－·、·OH、1,1-二苯基苦基苯肼自由基具有较强的清除作用,能使午餐肉中亚硝酸盐残留量降低41%。结论：柠檬DF具有较强的抗氧化特性,可显著降低午餐肉中的亚硝酸盐残留量,可考虑作为一种功能性成分添加在肉制品中,以提高肉制品的健康功效。     

Electrical Stimulation Effects on Myoglobin Properties of Bovine Longissimus Muscle

Beef longissimus steaks from 40 bull carcasses were used to study the effects of electrical stimulation (ES) on meat color mechanisms and myoglobin properties. Total pigment concentration and ratios of myoglobin forms for ES and control (C) samples were not different. Color panel and several spectrophotometric measurements indicated ES produced a lighter, brighter-red color in displayed steaks. Disappearance of reduced myoglobin during blooming was similar in unaged C and ES steaks, but reduced myoglobin decreased faster during blooming of ES steaks aged 6 days. ES decreased anaerobic metmyoglobin reducing activity and induced more metmyoglobin formation when steaks were in a 1% oxygen atmosphere.     

射频等离子体活性水处理对火腿发色的影响

探讨射频等离子体活性水（radio frequency plasma activated water,RF-PAW）处理对肌红蛋白颜色及火腿发色的影响,对比亚硝酸钠溶液与RF-PAW的发色效果以及这2 种发色剂用于火腿发色后亚硝酸盐的残留量。结果表明,等离子体处理6 min以内得到的PAW,不会对高铁肌红蛋白（metmyoglobin,metMb）的颜色产生显著影响,会使氧合肌红蛋白逐渐氧化成metMb,颜色由鲜红色变为红棕色;肉眼观察发现,采用RF-PAW、亚硝酸盐溶液（nitrite,NI）作为亚硝酸盐来源来腌制火腿,都能使新鲜猪肉发色,且RF-PAW腌制的火腿发色效果更好,RF-PAW中的活性物质并未对火腿发色造成不良影响;色差分析结果显示,PAW腌制出的火腿有更高的a*、C*值以及更低的b*值,色素含量测定显示,PAW处理的火腿具有更高的亚硝化肌红蛋白色素百分比（43.52%）,说明PAW腌制比NI腌制形成更多的亚硝化肌红蛋白色素,使火腿的红色更深;通过亚硝酸盐残留测定发现,NI腌制的火腿亚硝酸盐残留量为54.45 mg/kg,而PAW腌制的火腿亚硝酸盐残留量为52.79 mg/kg,均小于国标限量值70 mg/kg。该研究结果为肉品低温等离子体保鲜与腌制技术的工程化应用提供理论基础和科学指导。     

The antioxidant activities of nitrite and nitrosylmyoglobin in cooked meats

Low concentrations of nitrite (20 mg/kg) caused significant (p < 0·001) inhibition of lipid oxidation, measured by the TBA test, in a cooked muscle system and 50 mg/kg nitrite resulted in a highly significant (p < 0·001) reduction in TBA values. Similar antioxidant effects of nitrite were observed in heated water-extracted pork muscle systems catalysed by 5 mg/g metmyoglobin (Mb) or 5 mg/kg Fe(2+), Cu(2+) or Co(2+). The cured meat pigment, nitrosylmyoglobin per se exhibited significant (p < 0·05) antioxidant effects in pork muscle systems catalysed by Mb or metal ions. Progressive depletion of nitrite occurred during refrigerated storage of heated and unheated nitrite-treated pork muscle, muscle aqueous extract and in systems containing Mb, Cu(2+) ot Co(2+). Nitrite depletion occurred much more rapidly in Fe(2+)-containing systems and nitrite concentration had decreased to 5% of the original concentration immediately after heating. In addition, nitrite caused a significant (p < 0·05) reduction in the concentration of non-haem iron in heated aqueous-extracts of beef muscle, whereas, in nitrite-free extracts, a highly significant (p < 0·001) increase in the concentration of non-haem iron, probably due to heat denaturation of the haem structure with release of iron, was observed. Based on the results of this study, three co-operative mechanisms for the antioxidative activities in meat are proposed: (a) by the formation of MbNO which has antioxidant properties per se, (b) on heating, MbNO forms a stable complex, nitrosylhaemochrome, which blocks the catalytic activity of haem iron and also prevents release of haem iron as non-haem iron, which is a highly effective catalyst and (c) nitrite appears to 'chelate' non-haem iron-and possibly copper and cobalt-forming a stable complex, thus inhibiting catalytic activity.     

Nitrite,nitrite alternatives,and the control of clostridium botulinum in cured meats

Historically, nitrite has been a component of meat‐curing additives for several centuries. In recent years the safety of nitrite as an additive in cured meats has been questioned mainly because of the possible formation of carcinogenic nitrosamines. Nitrite has many important functions in meat curing including its role in color development, flavor, antioxidant properties, and antimicrobial activity. The inhibition of Clostridium botulinum growth and toxin production is an especially important antimicrobial property of nitrite. This review discusses the effects of processing, curing ingredients (especially nitrite), and storage of cured meats in relation to the control of C. botulinum. If nitrite is eliminated from cured meats or the level of usage decreased, then alternatives for the antibotulinal function of nitrite need to be considered. Several potential alternatives including sorbates, parabens, and biological acidulants are discussed.     

Effects of succinate and pH on cooked beef color

Two experiments were conducted to assess the effects of succinate and pH on cooked beef color. In experiment 1, ten strip loins (M. longissimus lumborum) were divided in half and assigned to either non-enhanced control or 2.5% succinate. Each half-loin was cut into steaks, packaged in vacuum or 80% oxygen, and stored at 1 °C for 0, 6, or 12 days. Steaks were cooked to either 66 °C or 71 °C. Succinate increased (P < 0.05) steak pH, raw a* values, and interior cooked redness when packaged in high oxygen. In experiment 2, to assess the role of succinate in raw and cooked color, succinate or ammonium hydroxide was added to ground beef patties to result in a common meat pH (5.9). At a similar pH, succinate had greater metmyoglobin reducing activity and internal cooked redness compared with ammonium hydroxide (P < 0.05). In addition to ingredient-based changes in muscle pH, succinate may influence color by regenerating reducing equivalents.     

Effects of succinate on ground beef color and premature browning

The objective of this experiment was to determine the effects of succinate on raw and cooked ground beef color. Chubs (n=10) were divided in half and assigned to either succinate (final w/w concentration of 2.5%) or distilled water. Patties (n=14 per chub half) were assigned to initial day 0 color and each of 6 treatment combinations, created by crossing 3 packaging types (vacuum, high-oxygen/80% O(2), and PVC) with 2 storage times (days 1 and 3). After storage, patties were cooked to either 66 °C or 71 °C. Succinate increased (P<0.05) ground beef pH and metmyoglobin reducing activity but had no effect (P>0.05) on raw a* and chroma values. Moreover, succinate decreased (P<0.05) raw L* values, lipid oxidation, and premature browning for patties packaged in PVC and high-oxygen. Succinate may increase cooked patty redness via its influence on meat pH.     

Combination effect of sodium lactate and irradiation on color,lactic acid bacteria,lipid oxidation and residual nitrite in Chinese sausages during storage at 25 °C

Chinese sausages, with the addition of 0 or 2% sodium lactate, were vacuum‐packaged and stored overnight at 4°C. Refrigerated sausages were gamma‐irradiated at 0, 3 or 5 kGy absorbed dose. Meat samples were stored at 25°C for up to 30 days. Color, lactic acid bacteria, pH, lipid oxidation and residual nitrite were determined during storage. Irradiated samples were reduced in redness as a result of irradiation and storage time. Irradiation at 5 kGy alone or in combination with 2% sodium lactate and irradiation at 3 kGy could completely inhibit lactic acid bacterial growth. Thiobarbituric acid reactive substances (TBARS) values decreased as the pH values of samples increased. Sodium lactate decreased TBARS values of all samples and protected against a decrease of residual nitrite during storage. Irradiation reduced residual nitrite in Chinese sausage, and residual nitrite decreased with increased time. Copyright © 2004 Society of Chemical Industry     

The rate of metmyoglobin formation in beef, pork, and turkey meat as influenced by pH, sodium chloride, and sodium tripolyphosphate

This study investigated the effects of pH (5·5 to 7·0), sodium chloride concentration (0·0-3·0%), and sodium tripolyphosphate concentration (0·0 and 0·5%) on the rate of metmyoglobin formation in ground beef, pork and turkey meat during refrigerated storage. Increasing the sodium chloride concentration produced a progressive increase in the rate of metmyoglobin formation in ground beef. Increasing the pH between pH 5·5 and 6·5 had no effect on the rate of metmyoglobin formation with ground beef and turkey meat, but produced a marked decrease between pH 6·5 and 7·0. In contrast pH had no consistent effect on the rate of metmyoglobin formation of ground pork and the rate of formation remained low at all pH levels. When ground beef contained 0·5% sodium tripolyphosphate, the effect of pH was reversed and the rate of metmyoglobin formation was lowest at pH 5·5, increased as the pH increased to 6·5 and then plateaued.     

Nitrite, nitrite alternatives, and the control of Clostridium botulinum in cured meats

Historically, nitrite has been a component of meat-curing additives for several centuries. In recent years the safety of nitrite as an additive in cured meats has been questioned mainly because of the possible formation of carcinogenic nitrosamines. Nitrite has many important functions in meat curing including its role in color development, flavor, antioxidant properties, and antimicrobial activity. The inhibition of Clostridium botulinum growth and toxin production is an especially important antimicrobial property of nitrite. This review discusses the effects of processing, curing ingredients (especially nitrite), and storage of cured meats in relation to the control of C. botulinum. If nitrite is eliminated from cured meats or the level of usage decreased, then alternatives for the antibotulinal function of nitrite need to be considered. Several potential alternatives including sorbates, parabens, and biological acidulants are discussed.     

Effects of ribose, xylose and arabinose on colour formation in processed meat products

The effects of ribose, xylose and arabinose on colour formation of meat products processed by emulsion curing were investigated in an aqueous model system under anaerobic conditions. Ribose markedly enhanced the colour forming ability, nitrite decomposition and reducing ability, depending upon its initial concentration; and xylose and arabinose exhibited some promoting effects on them. The colour promoting effects of ribose, xylose and arabinose increased with a rise in pH, in agreement with the results for reducing ability. This suggested that the reducing ability of ribose, xylose and arabinose plays a key role in promoting colour formation of meat products in emulsion curing.     

Effect of freeze-thaw cycles on physicochemical properties and color stability of beef semimembranosus muscle

The effects of freeze-thaw cycle on the physicochemical properties and color stability of beef semimembranosus muscle during cold storage were investigated. Meat was tested for effects on color (CIE L^?, a^?, b^?), myoglobin content (%), metmyoglobin reducing ability (MRA), thiobarbituric acid reactive substances (TBARS), heme pigment content (ppm), SDS-PAGE profile, and tissue microstructure. Fresh meat showed significantly (p < 0.05) higher values of CIE a^?, CIE b^?, and oxymyoglobin content (%) compared to freeze-thawed meat during cold storage. However, metmyoglobin content (%) was higher in freeze-thawed meat than in fresh meat during 7 days of cold storage. There were no significant differences (p > 0.05) in MRA among the treatments during cold storage. The TBARS value (0.387 mg/kg) of fresh meat was significantly (p < 0.05) higher than those of freeze-thawed meats after 5 days of cold storage. These results suggest that the freeze-thaw process could accelerate the deterioration of meat color.     

Post-mortem metmyoglobin reduction in fresh venison

The accumulation of metmyoglobin (MetMb) at the surface of meat during storage contributes significantly to its discolouration. Under appropriate conditions it may be possible to utilise residual meat MetMb reducing activity to maintain fresh colour. Venison meat colour stability is poorer compared with other species. Hence, we evaluated the capacity of completely discoloured venison (n=12 animals) to reduce MetMb under anaerobic conditions in order to decipher more clearly the role MetMb reducing activity may play. The reducing capacity of venison (1 day, 3, and 6 weeks post-mortem), electrical stimulation, surface location (top and bottom) and rigor temperature (15 and 35°C) on MetMb were evaluated. Surface MetMb decreased (P<0.001) during storage while deoxymyoglobin increased (P<0.001) demonstrating MetMb reduction. Metmyoglobin reduction was greater (P<0.001) in venison which entered rigor at 15°C, the reduction at the bottom surface of the steaks was greater (P<0.001) compared with the top surface, and electrical stimulation had no affect (P>0.05). These data demonstrate that metmyoglobin reducing activity occurs anaerobically in completely discoloured venison following storage display. The practical application for this finding needs to be determined.     

FORMATION OF NITRIC OXIDE MYOGLOBIN BY NICOTINAMIDE ADENINE DINUCLEOTIDES AND FLAVINS

SUMMARY –Formation of nitric oxide myoglobin was studied under anaerobic conditions. NADH (reduced nicotinamide adenine dinucleotide) and NADPH (reduced nicotinamide adenine dinucleotide phosphate) as reducing agents alone did not produce nitric oxide myoglobin from metmyoglobin and nitrite. However, in the presence of FMN (flavin mononucleotide), either NADH or NADPH readily produced nitric oxide myoglobin. FAD (flavin adenine dinucleotide) and riboflavin also were effective for the formation of nitric oxide myoglobin by NADH. In the absence of myoglobin, the NADH-FMN system did not reduce nitrite to nitric oxide. Similarly, a diaphorasemethylene blue system readily produced nitric oxide myoglobin, but in the absence of myoglobin it did not reduce nitrite to nitric oxide. On the other hand, nitric oxide myoglobin was produced from deoxymyoglobin by the action of nitrite in the absence of reducing agents under anaerobic conditions. Deoxymyoglobin can directly reduce nitrite to nitric oxide; the NADH-FMN and diaphorase-methylene blue systems may participate in the formation of nitric oxide myoglobin by means of reduction of metmyoglobin to the deoxy form.     

Time-dependent depletion of nitrite in pork/beef and chicken meat products and its effect on nitrite intake estimation

The food additive nitrite (E249, E250) is commonly used in meat curing as a food preservation method. Because of potential negative health effects of nitrite, its use is strictly regulated. In an earlier study we have shown that the calculated intake of nitrite in children can exceed the acceptable daily intake (ADI) when conversion from dietary nitrate to nitrite is included. This study examined time-dependent changes in nitrite levels in four Swedish meat products frequently eaten by children: pork/beef sausage, liver paté and two types of chicken sausage, and how the production process, storage and also boiling (e.g., simmering in salted water) and frying affect the initial added nitrite level. The results showed a steep decrease in nitrite level between the point of addition to the product and the first sampling of the product 24 h later. After this time, residual nitrite levels continued to decrease, but much more slowly, until the recommended use-by date. Interestingly, this continuing decrease in nitrite was much smaller in the chicken products than in the pork/beef products. In a pilot study on pork/beef sausage, we found no effects of boiling on residual nitrite levels, but frying decreased nitrite levels by 50%. In scenarios of time-dependent depletion of nitrite using the data obtained for sausages to represent all cured meat products and including conversion from dietary nitrate, calculated nitrite intake in 4-year-old children generally exceeded the ADI. Moreover, the actual intake of nitrite from cured meat is dependent on the type of meat source, with a higher residual nitrite levels in chicken products compared with pork/beef products. This may result in increased nitrite exposure among consumers shifting their consumption pattern of processed meats from red to white meat products.     

Evaluation of Iron Binding Compounds as Inhibitors of Gas and Toxin Production by Clostridium botulinum in Ground Pork

Iron binding systems (heme iron binding gases alone or with iron binding salts) were evaluated for antibotulinal activity in ground pork. Compared with meat systems containing nitrite or nitrite plus supplemental iron compounds, carbon monoxide (CO) was not antibotulinal. Nitric oxide (NO) treated meats did swell slower, but nitrite was also found in these systems. Thus, neither CO nor NO would be suitable substitutes for sodium nitrite in meat curing. Addition of ferric chloride or myoglobin decreased the antibotulinal effectiveness of nitrite, but samples containing nitrite plus ethylene-diaminetetraacetate (EDTA) or denatured nitrosylated myoglobin (NOMb) swelled slower. Supplemental iron compounds probably decreased residual nitrite levels in the product, thus permitting botulinal growth, rather than directly stimulating growth by providing iron as an external nutrient.