• Food Science and Industry
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• v.51 no.4
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• pp.313-324
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• 2018

As excessive intake of salt is regarded as a reason for health problems, the tendency of people to attempt to reduce intake of salt in their everyday lives is on the rise. In Korea, where many people have a higher intake of salt compared to those in other countries, there have been diverse efforts to improve on this eating habit. Protein hydrolysates are chemically, physically hydrolyzed protein that have been widely utilized as a material for not only regular food but health functional food due to have diverse biological effects such as anti-oxidation, anti-inflammation, prevention of diabetes, and regulation of blood pressure. Various amino acids such as glutamic acid, arginine and arginine dipeptides, which exist in the components of protein hydrolysates, have also been recently recognized as being helpful in decreasing the use of salt in foods as they can greatly enhance salty taste when used concurrently with salt due to having both salty and palatable flavors. In the case of protein hydrolysates that decompose soy protein or fish protein such as anchovy, they could reduce consumption of salt by as much as 50% without affecting people's food preferences when applied to food as they boost salty taste by approximately 10% to 70%. Although there are only a few studies on protein hydrolysates as a salty taste enhancer or salt substitute, the results of several studies are indicative of the potential of protein hydrolysates as a salty taste enhancing ingredient.

• Food Science of Animal Resources
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• v.34 no.5
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• pp.576-581
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• 2014

Sodium chloride is an important ingredient added to most of foods which contributes to flavor enhancement and food preservation but excess intake of sodium chloride may also cause various diseases such as heart diseases, osteoporosis and so on. Therefore, this study was carried out to investigate the effect of monosodium glutamate (MSG) as a salty flavor enhancer on the quality and sensorial properties of the NaCl/MSG complex and actual food system. For characterizing the spray-dried NaCl/MSG complex, surface dimension, morphology, rheology, and saltiness intensity were estimated by increasing MSG (0-2.0%) levels at a fixed NaCl concentration (2.0%). MSG levels had no effect of the characteristics of the NaCl/MSG complex, although the addition of MSG increased the surface dimension of the NaCl/MSG complex significantly (p<0.05). Furthermore, the effect of MSG on enhancing the salty flavor was not observed in the solution of the NaCl/MSG complex. In the case of an actual food system, model meat products (pork patties) were prepared by replacing NaCl with MSG. MSG enhanced the salty flavor, thereby increasing overall acceptability of pork patties. Replacement of NaCl with MSG (<1.0%) did not result in negative sensorial properties of pork patties, although quality deterioration such as high cooking loss was found. Nevertheless, MSG had a potential application in meat product formulation as a salty flavor enhancer or a partial NaCl replacer when meat products were supplemented with binding agents.

• Food Engineering Progress
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• v.21 no.2
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• pp.138-142
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• 2017

This study investigated the possible use of enzymatically hydrolyzed isolated soy protein (eHISP) to enhance the intensity of salty taste. The sodium chloride content of eHISP is 69.5 g/L. Yellowness (b) increased, and lightness (L) and redness (a) decreased with increasing eHISP concentration in sample solution. Also, perceived salty intensity of eHISP solution increased in sample solution with increasing added amount of eHISP with same NaCl concentration. The intensity of the salty taste was enhanced by 2-39% as the eHISP was added. The results suggest that it may be possible to reduce the content of sodium chloride in foods by enhancing the salty taste with eHISP.

• Korean Journal of Food Science and Technology
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• v.47 no.6
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• pp.751-756
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• 2015

Sodium chloride is known to contribute to the quality and safety of foods. However, there is an increasing interest in reducing the sodium content in foodstuffs, owing to health-related concerns related to its overconsumption. Therefore, the possible use of enzymatically hydrolyzed anchovy protein (eHAP) in enhancing the intensity of the salty taste in model broth was investigated in this study. The sodium chloride content of eHAP was 67.7 g/L. The lightness (L) and yellowness (b) of the model broth increased with increasing eHAP concentration. Additionally, the perceived intensity of the salty taste of eHAP solutions increased with increasing amounts of eHAP at a given NaCl concentration in the model broth. The intensity of the salty taste was enhanced by 0.37-35.58% as eHAP was added. The results suggest that it may be possible to reduce the sodium chloride content in foods by enhancing the salty taste with eHAP.

• Journal of Applied Biological Chemistry
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• v.57 no.3
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• pp.251-254
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• 2014

In order to investigate the combination effect of $\small{L}$-arginine and $\small{L}$-aspartic acid on salt enhancement, the saltiness and bitterness of various mixtures of $\small{L}$-arginine and $\small{L}$-aspartic acid were evaluated using the electronic tongue and sensory tests. Increasing the molar ration of $\small{L}$-arginine against $\small{L}$-aspartic acid enhanced the salty taste of NaCl, whereas increasing the molar ration of $\small{L}$-aspartic acid against $\small{L}$-arginine significantly suppressed the bitter taste of $\small{L}$-arginine. Therefore, combination of $\small{L}$-arginine and $\small{L}$-aspartic acid can be utilized as a saltiness enhancer and its suitable combination ratio was showed as $\small{L}$-arginine : $\small{L}$-aspartic acid = 1.00:0.98-1.00 on basis of molar concentration.

• Journal of Life Science
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• v.27 no.11
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• pp.1324-1330
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• 2017

Salt, or sodium chloride (NaCl), is a critical ingredient in many foods. It has roles in the flavor profiles of food products, textures of foods and preservation of foods against microbes. However, it increases risks of hypertension and is closely related to the development of cardiovascular disease. In recent years, health concerns related to sodium intake caused an increased demand for salt-reduced products in worldwide; it became necessary to develop natural salt-alternative products that are globally competitive. In a recent study, researchers succeeded in obtaining a natural salt enhancer through the hydrolysis of vegetable- and animal-matter mixtures. This study used various methods to identify and quantify peptide-containing arginine as a salt-alternative peptide (SAP) in an optimum combination. Arginine, or dipeptide-containing arginine, was analyzed as a standard substance using an NMR spectroscopy. The NMR carbon signal of the guanidine group of the standard substance was verified in a similar location (the L-arginine (Arg) was 156.8 ppm, the Arg-Alanine was 156.4 ppm and the Arg-Serine was 156.4 ppm). The results suggested that it is possible to analyze peptide-containing arginine quantitatively through the hydrolysis of vegetable- and animal-matter mixtures.