Effect of l-lysine on the physicochemical properties of pork sausage

Litopenaeus vannamei treated with l-lysine/L-arginine helped to delay the physicochemical quality deterioration and the flavor contribution attenuation in different preparation processes

Reheating is an inevitable step for frozen prepared foods before consumption. To evaluate the influence of heating on the quality of Litopenaeus vannamei, the current study used saline, l-lysine (Lys) and L-arginine (Arg) treatments on shrimp. Lys and Arg treatments were found to be beneficial in preserving shrimp's moisture content and muscle structural integrity. It significantly reduced protein and lipid oxidation, and astaxanthin degradation (P < 0.05). The LYS and ARG groups had greater umami and richness after reheating, with aldehydes and alcohols dominating the types of volatile flavor compounds. The LYS group performed better in the sensory evaluation. Pearson correlation analysis revealed a negative relationship between TVB-N, MDA, and flavor characteristics. Molecular simulations revealed that Lys and Arg solidify the myosin structure through intermolecular interactions, reducing the negative effects of reheating on shrimp and potentially serving as a standard for primary and advanced heat treatments of aquatic foods.

Effect of lysine-assisted ultrasonic and vacuum tumbling treatment on the quality of chicken breast meat in canned foods

Curing is a technological process that improves the tenderness, water retention, and overall quality of canned food. This study aimed to evaluate the effects of different exogenous additives, specifically sodium tripolyphosphate and lysine, on the quality of chicken breast meat in canned assorted vegetables and diced chicken using different curing methods: static curing, ultrasonic curing, vacuum tumbling curing, and ultrasonic combined with vacuum tumbling curing. The texture, moisture mobility and distribution, microstructure, and sensory acceptability of the chicken meat were evaluated. The results showed that lysine demonstrates better water retention than sodium tripolyphosphate, combining ultrasonic and vacuum tumbling treatments with 0.2% Lys (SL-UVT) significantly enhanced the texture characteristics and reduced the cooking loss of chicken breast meat. Additionally, SL-UVT treatment improved the texture, appearance, flavor, and overall acceptability scores. Nuclear magnetic resonance (NMR) analysis showed that SL-UVT treatment affected water distribution and flowability, increasing the retention of less mobile water in chicken breasts. In addition, the gap between myogenic fibers increased after SL-UVT treatment, trapping more water. In conclusion, SL-UVT treatment significantly improved the tenderness and water-holding capacity of the chicken breast from both macroscopic and microscopic perspectives. This study provided a theoretical foundation for refining and optimizing canned meat processing techniques.

The research on the synergistic improvement of water retention capacity and eating quality of marinated pork meat by the combination of basic arginine and acidic aspartic acid

Effects of varying levels of arginine (Arg) and aspartic acid (Asp) on the water-holding capacity (WHC) and eating quality of marinated pork meat were investigated. The addition of Arg significantly enhanced the WHC of marinated pork meat (P < 0.05) due to the increased pH levels of the meat. Besides, when the pH values of the meat were consistent, the combined use of Arg and Asp significantly decreased the cooking loss (CL) from 9.0 % to 6.4 % (P < 0.05) and increased the hardness and springiness (P < 0.05). These outcomes could be attributed to the combined effects of Arg and Asp, which promoted the dissociation of actomyosin and enhanced the antioxidant capacity of proteins, leading to a significant increase in the ordered structure. Moreover, Asp affected the extensibility of the perimysium, improving the tightness between fiber bundles. These modifications in muscle structures improved the WHC and texture of the meat.

Basic Amino Acids as Salt Substitutes in Low-Salt Gel-Based Meat Products: A Comprehensive Review of Mechanisms, Benefits, and Future Perspectives

Gel-based meat products have appealing market potential due to their unique texture, elasticity, and tender taste. Sodium chloride (NaCl) is commonly used in these products to enhance flavor, improve texture, ensure food safety, and extend shelf life. However, excessive long-term NaCl intake is connected with health issues such as hypertension and cardiovascular diseases, raising concerns about its impact on human health. As a result, the reduction of NaCl in these products, while maintaining their flavor and texture, has become a key area in the food industry. Salt reduction strategies often compromise product quality, limiting the search for substitutes. Consequently, there is growing interest in developing new salt substitutes. Recently, basic amino acids (BAA) have emerged as a viable alternative to NaCl in low-salt gel-based meat products. Studies have shown that BAAs not only enhance the solubility, gelation, and emulsification properties of salt-soluble proteins but also reduce protein and lipid oxidation in low-salt conditions, improving sensory characteristics and texture. When combined with chloride salts, BAAs can further lower salt content while improving the quality of the products. In addition, adding modern processing techniques (such as ultrasound, pulsed electric fields) has indicated positive effects on the taste and texture of low-salt meat products. Future studies should deploy advanced tools to dissect the micro-/macro-level impacts of BAAs on low-salt gel products. Furthermore, integrating modern food processing and information technologies could lead to the development of personalized, intelligent low-salt meat products that satisfy consumer demands for both health and taste.

Incorporation of transglutaminase potentially promoted the gelling properties and sensorial attributes of lysine-rich salt-reduced frankfurters

This study was designed to investigate the promotive effect of transglutaminase (TG) on the gelling properties and sensorial attributes of lysine (Lys)-rich salt-reduced frankfurters. The results revealed that the addition of 0.3% TG yielded acceptable cooking loss and emulsion stability in Lys-rich salt-reduced frankfurters, significantly improved their textural parameters, and visibly optimised their microstructure. Moreover, combination treatment with TG and Lys also promoted the gelling properties of the thermally induced gels, conferring greater viscoelasticity and stability. Meanwhile, TG and Lys positively transformed their protein conformations by promoting the generation of isopeptide bonds and enhancing the predominant molecular forces (hydrogen bonds and hydrophobic interactions). Additionally, combination treatment with 0.3% TG and Lys increased the overall sensory score of the salt-reduced frankfurters from 45.4 to 82.6. In summary, the combined application of TG and Lys potentially serves as an efficient salt-replacement strategy in emulsified meat products, providing superior product quality and health benefits.

Enhancing cooking and eating quality of semi-dried brown rice noodles through Lactobacillus fermentation and moderate lysine addition

Various concentrations of lysine were added to Lactobacillus fermentum-fermented brown rice flour to examine their effects on the sensory evaluation, color, pH, cooking quality, and texture of the resulting noodles. The potential mechanisms were explored through analyses of water distribution, thermodynamic properties, crystallinity, and microstructural observations using low-field nuclear magnetic resonance (LF-NMR), differential scanning calorimetry (DSC), X-ray diffraction (XRD), and scanning electron microscopy (SEM). Low concentrations of lysine (1 % and 3 %) effectively mitigated sourness while maintaining a color similar to natural brown rice noodles, with minimal structural damage and good cooking quality. The 3 % lysine group received the highest sensory scores (73.3 ± 5.4), likely due to moderate lysine-mediated starch network formation and improved water retention. While, a high lysine concentration (5 %) resulted in an undesirable reddish-brown color, poor texture and cooking quality. This is likely due to the formation of rigid lysine-mediated starch structures, which made the noodles brittle.

Application of lysine as a potential alternative to sodium salt in frankfurters: With emphasis on quality profile promotion and saltiness compensation

This study aimed to investigate the effect of lysine (Lys) on quality profile promotion and saltiness compensation in reduced‑sodium salt frankfurters. The results showed that the cooking loss of reduced‑sodium salt frankfurters decreased from 5.63 to 3.45% when the Lys level increased from 0.1 to 0.7%, as well as enhanced water contents and saltiness in a Lys dose-dependent manner. Moreover, the corresponding peak area percentage (A21) of reduced‑sodium salt frankfurters remarkably increased from 79.63% to 81.48% with the increased level of Lys. However, a higher level of Lys (≥ 0.5%) obviously reduced the textural properties of reduced‑sodium salt frankfurters, which was clearly verified by looser and rougher microstructures. Furthermore, hydrogen bonds were found to be the dominant molecular force in Lys-added reduced‑sodium salt frankfurters. Meanwhile, 0.3% Lys was found to exhibit the optimal sodium salt-replacing effect due to the highest degree of quality profile promotion and saltiness compensation. Additionally, directional triangle sensory evaluation further confirmed that the reduced‑sodium salt frankfurters treated with 0.3% Lys was perceived to be similar to control frankfurters, resulting a 50% salt-reduction effect. Thus, our results suggested that Lys could be applied as an efficient sodium salt alternative in reduced‑sodium salt frankfurters.

Enhancement of the organic acid content and antioxidant capacity of yellow whey through fermentation with Lacticaseibacillus casei YQ336

Fermentation is considered an effective tool for improving the functional characteristics of food. In this study, Lacticaseibacillus casei YQ336 was used to ferment yellow whey, and physical and chemical analysis was performed to identify the changes in the nutritional components and antioxidant activity of the fermented yellow whey. Non-targeted metabolomics was used to study the transformation of small molecular substances in the fermented yellow whey. After 48 h of pure culture fermentation with L. casei YQ336, the pH of yellow whey decreased significantly (p < 0.05). Meanwhile, the content of total acids, organic acids, sugars, total phenols, and total flavonoids and the antioxidant activity showed a significant increase (p < 0.05). A total of 628 differential metabolites were identified between fermented and unfermented yellow whey samples, of which 293 were upregulated and 335 were downregulated. After fermentation, due to the growth and metabolic activity of L. casei YQ336, meaningful metabolites such as homovanillic acid, lactic acid, oxalic acid, L-glutamic acid, and phenylalanine, as well as phenyllactic acid, gallic acid, and genistein were produced. This increased the organic acid content and antioxidant activity of yellow whey. The findings provide a theoretical and practical basis for further research on the bio-functional activity of yellow whey and the recycling and utilization of food by-products.

Use of basic amino acids to improve gel properties of PSE-like chicken meat proteins isolated via ultrasound-assisted alkaline extraction

To improve the gel quality of pale, soft, and exudative (PSE)-like chicken protein isolate (PPI) obtained via ultrasound-assisted alkaline extraction (UAE), l-lysine (l-Lys), l-arginine (l-Arg), or l-histidine (l-His) were used and the effects on the thermal gelling characteristics of PPI were studied. Compared with the nonbasic amino acid addition group, the addition of l-His/l-Arg/l-Lys significantly increased the solubility and absolute zeta potential of PPI, whereas reduced the particle size and turbidity (p < 0.05). They enhanced the gel strength and textural properties of PPI (p < 0.05) and reduced the cooking loss of PPI in the following order: l-Lys > l-Arg > l-His. The solubility, gel strength, and hardness of PPI with l-Lys were increased by 18.6%, 44.6%, and 57.6%, respectively, and cooking loss was decreased by 18.1%. Low-field nuclear magnetic resonance and magnetic resonance imaging revealed that basic amino acids addition decreased the water mobility in PPI gels with increasing immobile water content. Scanning electron microscopy revealed that the addition of basic amino acids promoted the formation of a more uniform and tight network microstructure in PPI gels. The α-helix content was decreased, whereas the β-sheet content was increased in PPI gels after basic amino acid addition. Therefore, addition of basic amino acids, especially l-Lys, enhances the gel properties of PPI. PRACTICAL APPLICATION: This study revealed that adding basic amino acids effectively improved the gel properties of PPI obtained via UAE method, with l-Lys exerting the best improvement effect. Our findings highlight the application value of PSE-like meat by the improvement of gel characteristics of PPI, providing a theoretical reference for the processing and utilization of PPI.

Impact of L-arginine on the quality of heat-treated Antarctic krill: Influence of pH and the guanidinium group

Antarctic krill suffers from severe water loss after heating, and its quality deteriorates, so it is in urgent need of a green and healthy improver. In this paper, the effects of L-arginine (L-Arg) soaking on the modification of the quality of heat-treated Antarctic krill and the structure of myofibrillar proteins (MPs) in Antarctic krill were investigated. The results showed that L-Arg had an ameliorating effect on heat-treated krill in a concentration-dependent relationship. The water-holding capacity of L-Arg-soaked krill was 1.41 times higher than that of sodium tripolyphosphate (STPP) at an equivalent concentration (80 mM). At 120 mM L-Arg soaked, L* and hardness of krill decreased to 58.31 and 334.81 g, while resilience and moisture content increased to 0.47 and 85.29 % after heating, respectively. The scanning electron microscopy (SEM) results revealed that the tissue state of the pH-corrected groups was better than the control, but not as well as that of the pH-uncorrected groups. pH and the guanidinium group in L-Arg both played roles in promoting the transition of MPs from disordered to ordered secondary structures. This transition reduced the exposure of hydrophobic and sulfhydryl groups in MPs, inhibited the protein aggregation and increased the solubility of MPs to 71.61 %, which ultimately improved the quality of heat-treated krill. It is worth noting that the pH effect had a primary influence on the observed effects, while the guanidinium group made a secondary contribution. These results could broaden the potential application of L-Arg as an improver of the quality of heat-treated krill.

Drying Technique Providing Maximum Benefits on Hydrogelling Ability of Avocado Seed Protein: Spray Drying

The current study focused on creating natural hydrogels consisting of mixtures of avocado seed proteins dried with different techniques and locust bean gum. Proteins were extracted from avocado seed by alkali and isoelectric precipitation methods. Avocado seed proteins were dried by five different drying methods, namely ambient drying, oven drying, vacuum drying, freeze drying, and spray drying. FT-IR spectra were used to analyze the chemical structure of proteins dried using various techniques. Additionally, hydrogel models were constructed in the presence of avocado seed proteins and locust bean gum to clarify the effect of drying techniques on their hydrogelling ability. The impact of drying techniques on the functional behavior of hydrogels was notable. The maximum water holding capacity values were detected in the hydrogel system containing spray-dried proteins (93.79%), followed by freeze-dried (86.83%), vacuum-dried (76.17%), oven-dried (72.29%), and ambient-dried (64.8%) counterparts. The swelling ratio was 34.10, 33.51, 23.05, 18.93, and 14.39% for gels in the presence of freeze-dried, spray-dried, vacuum-dried, oven-dried, and ambient-dried proteins, respectively. Additionally, the desirable values for the amount of protein leaking from the systems prepared using spray-dried (7.99%) and freeze-dried (12.14%) proteins were obtained compared to others (ambient-dried: 24.03%; oven-dried: 17.69%; vacuum-dried: 19.10%). Superior results in terms of textural properties were achieved in hydrogel models containing spray-dried and freeze-dried proteins. In general, hydrogel models exhibited elastic behavior rather than viscous properties; however, the magnitudes of elasticity varied. Furthermore, the success of gels containing hydrogel models containing spray-dried protein and locust bean gum in the bioactive compound delivery system was obvious compared with protein ones alone.

Suppression mechanism of L-lysine on the Epigallocatechin-3-gallate-induced loss of myofibrillar protein gelling potential

As a natural antioxidant, Epigallocatechin-3-gallate (EGCG) needed to be added in high doses to maintain the quality of meat products. However, high doses of EGCG caused the excessive aggregation of myofibrillar protein (MP), which damaged the gel properties of MP gels. Therefore, the purpose of this study was to investigate the mitigation of EGCG-induced loss of MP gelling potential by L-Lysine (L-Lys). The results showed that the addition of 20 mM L-Lys induced excessive unfolding and loose aggregation of MP at 10 µmol/g EGCG, and hence, reducing the solubility (14.5%) and the tryptophan fluorescence, and forming a network structure with a large aperture. Therefore, the cooking loss was decreased from 29.20% to 15.13%, and the strength of MP gels was decreased from 0.35 N to 0.17 N. However, L-Lys hindered the hydrogen bonding interactions and hydrophobic interactions between MP and EGCG by competing the binding sites of MP at 50 µmol/g EGCG, which was supported by the Zeta potential, surface hydrophobicity, FTIR and molecular docking analysis. Thus L-Lys mitigated the protein aggregation caused by 50 µmol/g EGCG, improved the solubility (23.02%∼86.99%) and apparent viscosity, which were beneficial for the formation of a continuous network structure in MP gels. Therefore, the cooking loss of MP gels was decreased from 52.40% to 41.30%, and the gel strength was enhanced from 0.13 N to o.22 N with 20 mM L-Lys addition. The present study could provide a new strategy for increasing the amounts of EGCG in meat products without damaging the gel properties of meat products.

Improving the texture properties and protein thermal stability of Antarctic krill (Euphausia superba) by L-lysine marination

BACKGROUND

The quality deterioration of Antarctic krill (Euphausia superba) after thermal processing limits its industrial application. This study sought to improve the texture characteristics of Antarctic krill after heat treatment through pre-soaking using l-lysine (Lys) solution and sodium tripolyphosphate (STPP). Moreover, the effects of Lys on heat-treated Antarctic krill were explored.

RESULTS

Lys significantly reduced the cooking loss and improved the texture characteristics of Antarctic krill during heat treatment. The low-field nuclear magnetic resonance results showed that Lys reduced the water loss of Antarctic krill during heat treatment. Additionally, the surface hydrophobicity, Fourier transform infrared spectroscopy, and endogenous fluorescence spectroscopy results showed that Lys could inhibit the structural damage of Antarctic krill protein under the thermal denaturation condition and enhance the thermal stability of the protein. The scanning electron microscopy results showed that Lys could protect the structural integrity of Antarctic krill muscle fibers during heat treatment.

CONCLUSION

The cooking loss in the Lys added groups was better than the sodium tripolyphosphate added group, and 2.0% Lys solution could minimize the cooking loss of Antarctic krill. The secondary and tertiary structures of the Antarctic krill protein were actively protected by Lys during heat treatment. Overall, the study will provide insights into the application of Lys in the food industry as a natural additive and an alternative to phosphate. © 2021 Society of Chemical Industry.

The effect of nitric oxide synthase and arginine on the color of cooked meat

In previous studies, it has been suggested that the NO-synthase enzyme may be responsible for color formation in fermented sausages. Thus, this is the first study in which the aim was to analyze the effects of direct NO-synthase and arginine application to meat on its color after heating. Myoglobin forms as well as the presence of NO-myoglobin were investigated. The color of the meat and myoglobin forms present in the samples were mainly affected by pH differences, caused by a HEPES buffer or arginine. None of the variants demonstrated a bright pink color as in the case of the heated nitrite-cured sample. Based on analysis of the absorption spectra, it can be concluded that there is some evidence of nitroso-complex formation. Therefore, it is probable that optimizing the pH/time/temperature conditions for NO-synthase activity would allow to obtain a desirable color effect. NO-synthase could be used as an alternative curing ingredient.

Effects of Microbial Fermented Feed on Serum Biochemical Profile, Carcass Traits, Meat Amino Acid and Fatty Acid Profile, and Gut Microbiome Composition of Finishing Pigs

Microbial fermented feed is an important part of feed industry, while little research has focused on the solid-state fermentation of complete feed. Herein, the purpose of the present study was to investigate the effects of fermented complete feed (FCF) on the growth performance, biochemical profile, carcass traits, meat proximate composition, meat amino acid and fatty acid profile, and gut microbiome composition of finishing pigs, thereby providing references for the application of FCF in animal production. Twenty Duroc × Landrace × Yorkshire pigs with an average body weight (BW) of 48.74 ± 1.49 kg were divided randomly into control group (pigs received a basal diet, CN, n = 10) and FCF group (pigs fed with FCF, n = 10). The experiment lasted for 60 days. FCF improved the growth performance, which was indicated by a significantly increased final BW, average daily gain and average daily feed intake, and a significantly decreased feed-to-gain ratio. FCF improved biochemical profile, which was indicated by a higher alkaline phosphatase, glucose, immunoglobulin G, immunoglobulin M, superoxide dismutase, and total antioxidant capacity content. Pigs that received FCF had better carcass traits and meat quality than did pigs that received basal diet, which was indicated by a higher carcass length, crude protein content, lysine content, Glu content, C18:ln9c, C18:2n6c, C20:4n6, and unsaturated fatty acid content and a lower average back-fat thickness, C18:0, and saturated fatty acids. FCF significantly reduced the relative abundances of presumably pathogenic bacteria of phylum Proteobacteria and genus Escherichia–Shigella and enhanced the relative abundances of likely beneficial bacteria of phylum Firmicutes and genus Clostridium. In summary, FCF had a certain effect on the improvement of growth performance, serum biochemical profile, carcass traits, meat proximate composition, amino acid and fatty acid profile, and gut microbiome composition of finishing pigs.

Gelation and microstructural properties of fish myofibrillar protein gels with the incorporation of l-lysine and l-arginine at low ionic strength

BACKGROUND

The solubility limitation and poor gelation properties of myofibrillar proteins at low ionic strength are the most challenging obstacle to limit salt reduction in meat products. In the present study, five amino acids with different concentrations of 5, 10 15, and 20 mmol L^-1 , l-lysine (Lys), l-arginine (Arg), l-histidine (His), l-proline (Pro) and l-glycine (Gly), were introduced into myofibrillar protein (MP) suspensions at low ionic strength to improve solubility and gelation properties.

RESULTS

The dynamic rheological analysis showed that the MPs at 100 mmol L^-1 NaCl containing 15/20 mmol L^-1 Lys/Arg exhibited similar gelling behaviors to MPs at 600 mmol L^-1 NaCl. Similarly, 15/20 mmol L^-1 Lys/Arg significantly increased the solubility of MPs and the water holding capacity (WHC) and gel strength of MP gels, which was comparable to those of MPs at 600 mmol L^-1 NaCl. Furthermore, Lys and Arg promoted the formation of aggregation-type gel with a dense and compact structure observed by scanning electron microscopy. The gels containing 15/20 mmol L^-1 Lys/Arg exhibited a significant increase in the proportion of immobilized water (P₂₁ ).

CONCLUSION

The enhancement of WHC, gel strength, and P₂₁ was closely associated with the increased solubility and the dense microstructure induced by Lys and Arg with high concentrations of 15 and 20 mmol L^-1 . The knowledge obtained from this study may be useful for the improvement of gelation properties of MPs at low ionic strength using l-lysine and l-arginine. © 2021 Society of Chemical Industry.

Quality of frozen porcine Longissimus lumborum muscles injected with l-arginine and l-lysine solution

This study investigated the effects of l-arginine and l-lysine on the water holding capacity, shear force, color, and protein denaturation of frozen porcine Longissimus lumborum. Four batches were prepared, each corresponding to samples of an experimental treatment: without a cryoprotective solution, injecting a 0.3% sodium tripolyphosphate and 0.5% NaCl solution, a 0.5% l-arginine solution, or a 0.5% l-lysine solution. The results showed that both l-arginine and l-lysine decreased thawing loss, cooking loss, shear force, L^⁎ values, b^⁎ values, and surface hydrophobicity, but they increased pH values, a^⁎ values, percentages of peak areas for T₂₁ relaxation times, and Ca²⁺-ATPase activity. Additionally, both histological and transmission electron microscopy images showed that l-lysine, and especially l-arginine could inhibit the formation of gaps between fiber bundles, alleviate the disruption of intracellular spaces, and maintain the structural integrity of sarcomeres. Overall, the results showed that both l-arginine and l-lysine hindered the structural damage of muscle fibers during freezing and protected myofibrillar proteins from denaturation, ultimately contributing to superior quality attributes.

Quality properties of whole milk powder on chicken breast emulsion-type sausage

The aim of the study was to determine the effect of whole milk powder (WMP) as heterologous proteins on chicken breast emulsion-type sausages. The quality properties of WMP on such chicken breast emulsion-type sausages were investigated by measuring the proximate composition, pH, color, cooking yield, protein solubility, and by applying other methods, such as texture profile analysis (TPA), microphotograph, sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and electronic nose. The crude fat, protein, and ash contents of 15% WMP samples were significantly higher than the control samples (p < 0.05). The redness of the cooked samples significantly increased with an increase in the WMP contents (p < 0.05). The cooking yield of WMP treated samples was significantly higher than the control sample (p < 0.05). Additionally, the hardness, gumminess, and chewiness of WMP treated samples were significantly higher than the control sample (p < 0.05). The sarcoplasmic and myofibrillar proteins of samples containing 15% WMP were significantly higher than the control samples (p < 0.05). The result of SDS-PAGE showed that the C protein, sarcoplasmic protein, actin, and tropomyosin increased with an increase in the WMP contents. The principal component analysis plot of WMP-treated samples was clearly different from that of the control samples. Based on these results, it was predicted that WMP could be useful as heterologous protein on emulsion-type sausage.

l-Arginine and l-Lysine Alleviate Myosin from Oxidation: Their Role in Maintaining Myosin's Emulsifying Properties

This study investigated the alleviative effects of l-arginine and l-lysine on the emulsifying properties and structural changes of myosin under hydroxyl radical (·OH) stress. The results showed that ·OH decreased the emulsifying activity index and emulsifying stability index but increased the creaming index and droplet size of a soybean oil-myosin emulsion (SOME). Confocal laser scanning microscopy demonstrated that ·OH caused larger and more inhomogeneous SOME droplets. l-Arginine and l-lysine effectively alleviated ·OH-induced destructive effects on the emulsifying properties of myosin. In addition, ·OH increased the extent of protein carbonylation and dityrosine formation, surface hydrophobicity, and β-sheet content, but decreased the tryptophan fluorescence intensity, solubility, total sulfhydryl, and α-helix content of myosin. Although l-lysine increased dityrosine fluorescence intensity, l-arginine and l-lysine effectively alleviated the aforementioned structural changes of myosin. Therefore, l-arginine and l-lysine could mitigate ·OH-induced structural changes of myosin, which enabled myosin to maintain its emulsifying capacity under oxidative stress.

Evaluation of the postmortem ageing process of beef M. semitendinosus based on ultrasound-assisted l-histidine treatment

This paper aimed to investigate the postmortem ageing process of beef M. semitendinosus (ST, just slaughtered muscles) using ultrasound-assisted l-histidine treatment. The treatments with different concentrations of l-histidine solutions (0.1%, 0.15%, and 0.2%, w/v) at 4 °C for 60 min were labeled "LH", "MH" and "HH", respectively. Furthermore, the corresponding treatments with the above l-histidine solutions for 55 min after ultrasound pretreatment for 5 min were labeled "ULH", "UMH" and "UHH", respectively. The results showed that the UMH group had the lowest Warner-Bratzler shear stress. The pH value of the HH and UHH groups was higher than that of the other groups (HH: 6.39 ± 0.02, UHH: 6.52 ± 0.03, P < 0.05). The MH and UMH groups showed large fiber spacing, cavities and fractures as well as obviously damaged myofibrils. In the UMH group, the soluble protein concentration (SPC) and caspase-3 activity were the highest, and the turbidity of actomyosin was the lowest. Surprisingly, the Ca²⁺-ATPase activity of actomyosin increased gradually with increasing concentrations of l-histidine solution. Therefore, the UMH treatment promoted the process of meat ageing, exhibiting the potential to be used by beef or other meat manufacturers to improve the production efficiency.

Effects of lysine and arginine on the properties of low-salt mince gel from striped catfish (Pangasianodon hypophthalmus)

Effects of basic amino acids, lysine (Lys) and arginine (Arg), at different levels (0%, 0.5%, and 1%, based on mince weight) on properties of striped catfish (Pangasianodon hypophthalmus) mince gel containing low salt (LS) and high salt (HS) were investigated. Without Lys or Arg addition, HS gel had the higher textural properties including hardness, chewiness, as well as cohesiveness than LS gel (P < 0.05) and the highest values were achieved when 1% Arg was incorporated in both LS and HS gels (P < 0.05). Arg had no effect on acceptability of mince gel. However, whiteness was decreased in HS gel when Arg was applied. Autolysis of gel was lower in HS gel containing Arg. No differences in protein patterns among all gel samples were found. Addition of Arg could increase the gelling ability of both LS and HS mince during heating as evidenced by higher storage modulus (G') and viscous modulus (G″). Mince gel added with Arg had orderly interconnected structure and their microstructure was finer than that without Arg. Therefore, Arg could be used in LS gel from striped catfish mince, in which quality of gel was equivalent to HS counterpart. PRACTICAL APPLICATION: Basic amino acid, especially arginine (Arg) with guanidinium group, could increase repulsive force between protein molecules at low-salt concentration (0.5%). This resulted in high solubilization of muscle proteins, whereas gel formation or gel strength was higher than that containing high salt (2.5% to 3.5%). Thus, Arg could be used for production of fish mince gel containing low salt with lowered health risk.

Reduction and coordination properties of l-Lysine/l-arginine/l-cysteine for the improvement of the color of cured sausage

This study investigated how l-lysine/l-arginine/l-cysteine improved cured sausage color. Visible detection showed that Mb(Fe²⁺)NO did not form when MetMb(Fe³⁺) was treated with a combination of l-lysine and NaNO₂, l-arginine and NaNO₂, or l-cysteine and NaNO₂. Visible spectra and electron paramagnetic resonance (EPR) detection together indicated formation of Mb(Fe²⁺)O₂ when MetMb(Fe³⁺) was treated with l-lysine, l-arginine, or l-cysteine; Mb(Fe²⁺)NO was formed when MetMb(Fe³⁺) was treated with a combination of l-lysine and NO, l-arginine and NO, or l-cysteine and NO. Visible, EPR, and fourier transform infrared results suggested formation of a complex of Mb(Fe²⁺) and l-cysteine by the coordination of sulfydryl and ferrous porphyrin. Therefore, l-lysine, l-arginine, or l-cysteine can promote the formation of Mb(Fe²⁺)NO by reducing MetMb(Fe³⁺) to Mb(Fe²⁺)O₂, and l-cysteine promotes formation of a complex of Mb(Fe²⁺) and l-cysteine via coordination of sulfydryl and ferrous porphyrin, which may improve cured sausage color.

Hydrolysis and oxidation of protein and lipids in dry-salted grass carp (Ctenopharyngodon idella) as affected by partial substitution of NaCl with KCl and amino acids

To obtain healthier meat products with reduced Na content, the salt substitute containing l-histidine and l-lysine was compared with NaCl in the hydrolysis and oxidation of protein and lipids of dry-salted fish during processing. Compared with NaCl-treated fish (S-F), salt substitute treated fish (SS-F) had a lower Na content, higher moisture content and lower hardness. Sensory analysis showed that salt substitute didn't affect the acceptability of salted fish. The free fatty acids of SS-F treated fish had a slight tendency toward lipolysis at the end of processing. Additionally, the conjugated diene value, lipoxygenase activity and malondialdehyde value were lower in the ventral and dorsal muscles for the SS-F treatment. Meanwhile, the protein carbonyls and thiol groups were significantly decreased as cathepsin B and L activities and FAA content were increased in the ventral and dorsal muscles for the SS-F treatment. l-Histidine and l-lysine accelerated the hydrolysis (inhibit the oxidation) of protein and lipids in dry-salted grass carp, illustrating that l-histidine and l-lysine will be a positive approach to develop healthier meat products.

Effects of Multiple Freeze-Thaw Cycles on Biochemical and Physical Quality Changes of White Shrimp (Penaeus vannamei) Treated with Lysine and Sodium Bicarbonate

Freezing and thawing occur during storage, transportation, and retail display, leading to deterioration of frozen shrimp. The objective of this research was to investigate the change in quality of frozen white shrimp treated by lysine and NaHCO₃ after multiple freeze-thaw cycles. Shrimp were soaked in lysine and lysine/NaHCO₃ each at 1% (w/v) frozen in an air-blast freezer at -30 °C, and kept in a chest freezer (-18 ± 2 °C) for a week before they were thawed using tap water before the analysis (freeze-thaw cycle 1). The samples were subjected to five freeze-thaw cycles, which were repeated every week. Qualities of the samples were determined for thawing loss, cutting force, and total volatile basic nitrogen (TVB-N), as well as oxidation stability by using Rancimat. The use of lysine/NaHCO₃ could significantly reduce thawing loss at all freeze-thaw cycles compared to the control and lysine treatment (P < 0.05). Similar results were found with TVB-N and the oxidation stability of the samples. A difference in cutting forces of the shrimp between lysine and lysine/NaHCO₃ treatment was found when the frequency of freeze-thawing was increased to three cycles; it was lower than that in the control at all cycles. Histological study showed that the treatment with lysine/NaHCO₃ led to the swelling of muscle fibers and fewer fragments at five freeze-thaw cycles. The results showed that lysine/NaHCO₃ could effectively retard the quality loss from repeated freeze-thawing during frozen storage. PRACTICAL APPLICATION: Repeated freezing and thawing usually occur during storage, transportation, retail display or in restaurants, and in consumers' kitchens. The temperature at the manufacturing site and during transportation in a tropical country like Thailand is relatively high, and frozen food producers come across quality deterioration resulting from multiple freeze-thaw cycles occurring during transportation and storage. Frozen shrimp producers require research to improve product quality by adding nonphosphate food additives or, if possible, by using natural food ingredients instead of polyphosphate or sodium bicarbonate.

l-Lysine/l-arginine/l-cysteine synergistically improves the color of cured sausage with NaNO2 by hindering myoglobin oxidation and promoting nitrosylmyoglobin formation

This study aimed to evaluate the effects of l-lysine (Lys)/l-arginine (Arg)/l-cysteine (Cys) on the color of cured sausage and the possible mechanism underlying these effects. The results indicated that the combined addition of Arg/Lys/Cys and NaNO₂ effectively increased the a* values and nitroso pigment content but decreased the MetMb(Fe³⁺) content in cured sausage, compared with the individual addition of Arg/Lys/Cys and NaNO₂. The cured sausage treated with combined Arg/Lys/Cys and NaNO₂ contained significantly lower residual nitrite than those treated with only NaNO₂. UV-vis spectroscopy and electron paramagnetic resonance spectroscopy revealed that pentacoordinate nitrosyl ferrohemochrome was the main pigment component in the cured sausage treated with NaNO₂ or combined Arg/Lys/Cys and NaNO₂ and higher content in the latter one. The results suggest that Arg/Lys/Cys hindered myoglobin oxidation and promoted pentacoordinate nitrosylmyoglobin formation, which could contribute to the improved color of cured sausage. The results are of interest in the meat industry.

Small Molecular Weight Aldose (d-Glucose) and Basic Amino Acids (l-Lysine, l-Arginine) Increase the Occurrence of PAHs in Grilled Pork Sausages

(1) Background: Amino acids and carbohydrates are widely used as additives in the food industry. These compounds have been proven to be an influencing factor in the production of chemical carcinogenic compounds polycyclic aromatic hydrocarbons (PAHs). However, the effect of the properties of the amino acids and carbohydrates on the production of PAHs is still little known. (2) Methods: We added different (i) R groups (the R group represents an aldehyde group in a glucose molecule or a ketone group in a fructose molecule); (ii) molecular weight carbohydrates; (iii) polarities, and (iv) acid-base amino acids to pork sausages. The effects of the molecular properties of carbohydrates and amino acids on the formation of PAHs in grilled pork sausages were investigated. (3) Results: The results showed that a grilled sausage with aldehyde-based d-glucose was capable of producing more PAHs than a sausage with keto-based d-fructose. A higher PAH content was determined in the grilled pork sausage when the smaller molecular weight, d-glucose, was added compared with the sausage where the larger molecular weight, 4-(α-d-glucosido)-d-glucose and cellulose were added. The addition of basic amino acids (l-lysine, l-arginine) was capable of producing more PAHs compared with the addition of acidic amino acids (l-glutamic acid, l-aspartate). When amino acid containing a benzene ring was added, a smaller volume of PAHs was produced compared with the addition of other amino acids. (4) Conclusions: Our study suggests that systematic consideration of molecule properties is necessary when using food additives (amino acids and carbohydrates) for food processing.