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      KCI등재 SCIE SCOPUS

      Evaluation of rheological properties of pork myofibrillar protein gel and physicochemical and textural properties of low-fat model sausages containing various levels of chickpea powder dried by different methods

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      https://www.riss.kr/link?id=A110080074

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processed via freezedrying (FCP) or oven-drying (OCP).Methods: Pork MP gels and LFMS were prepared with varying concentrations (0%–1.5%) of CPP, either as FCP or OCP. Viscosity, cooking yield, gel strength, protein surface hydrophobicity, and sulfhydryl group levels were analyzed, in conjunction with sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) and low-vacuum scanning electron microscopy (LV-SEM) investigations, to evaluate the rheological properties and protein structural changes in MP gels after CPP addition. Additionally, cooking loss, expressible moisture, texture profile, SDS-PAGE, and LV-SEM analyses were conducted to assess the physicochemical and textural properties of LFMS containing CPP. The data were analyzed using one-way and two-way ANOVA, followed by Duncan’s multiple range test (p<0.05) to determine significant differences.Results: Increases in CPP concentration enhanced MP gel viscosity, cooking yield, and gel strength; 1.5% CPP yielded optimal water retention and structural integrity. CPP reduced protein surface hydrophobicity and sulfhydryl content while increasing disulfide bond formation, indicating improved gel network formation. SDS-PAGE confirmed myosin heavy chain reduction and the formation of higher-molecular-weight polymers. In LFMS, CPP reduced cooking loss and expressible moisture; OCP was more effective at higher levels. Texture analysis showed increased hardness and chewiness, whereas cohesiveness and springiness remained unchanged. Microscopy revealed a denser, more uniform structure in sausages containing 1.5% CPP. These changes were correlated with improved water retention and texture.Conclusion: The findings in this study suggest that CPP, particularly OCP, is a promising functional ingredient for efforts to improve meat product quality by enhancing water retention, gel strength, and texture. CPP also promotes protein polymerization, contributing to a more stable gel network.
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      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processe...

      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processed via freezedrying (FCP) or oven-drying (OCP).Methods: Pork MP gels and LFMS were prepared with varying concentrations (0%–1.5%) of CPP, either as FCP or OCP. Viscosity, cooking yield, gel strength, protein surface hydrophobicity, and sulfhydryl group levels were analyzed, in conjunction with sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) and low-vacuum scanning electron microscopy (LV-SEM) investigations, to evaluate the rheological properties and protein structural changes in MP gels after CPP addition. Additionally, cooking loss, expressible moisture, texture profile, SDS-PAGE, and LV-SEM analyses were conducted to assess the physicochemical and textural properties of LFMS containing CPP. The data were analyzed using one-way and two-way ANOVA, followed by Duncan’s multiple range test (p<0.05) to determine significant differences.Results: Increases in CPP concentration enhanced MP gel viscosity, cooking yield, and gel strength; 1.5% CPP yielded optimal water retention and structural integrity. CPP reduced protein surface hydrophobicity and sulfhydryl content while increasing disulfide bond formation, indicating improved gel network formation. SDS-PAGE confirmed myosin heavy chain reduction and the formation of higher-molecular-weight polymers. In LFMS, CPP reduced cooking loss and expressible moisture; OCP was more effective at higher levels. Texture analysis showed increased hardness and chewiness, whereas cohesiveness and springiness remained unchanged. Microscopy revealed a denser, more uniform structure in sausages containing 1.5% CPP. These changes were correlated with improved water retention and texture.Conclusion: The findings in this study suggest that CPP, particularly OCP, is a promising functional ingredient for efforts to improve meat product quality by enhancing water retention, gel strength, and texture. CPP also promotes protein polymerization, contributing to a more stable gel network.

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processed via freeze drying (FCP) or oven-drying (OCP).
      Methods: Pork MP gels and LFMS were prepared with varying concentrations (0%–1.5%) of CPP, either as FCP or OCP. Viscosity, cooking yield, gel strength, protein surface hydro phobicity, and sulfhydryl group levels were analyzed, in conjunction with sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) and low-vacuum scanning elec tron microscopy (LV-SEM) investigations, to evaluate the rheological properties and pro tein structural changes in MP gels after CPP addition. Additionally, cooking loss, express ible moisture, texture profile, SDS-PAGE, and LV-SEM analyses were conducted to assess the physicochemical and textural properties of LFMS containing CPP. The data were ana lyzed using one-way and two-way ANOVA, followed by Duncan’s multiple range test (p<0.05) to determine significant differences.
      Results: Increases in CPP concentration enhanced MP gel viscosity, cooking yield, and gel strength; 1.5% CPP yielded optimal water retention and structural integrity. CPP reduced protein surface hydrophobicity and sulfhydryl content while increasing disulfide bond for mation, indicating improved gel network formation. SDS-PAGE confirmed myosin heavy chain reduction and the formation of higher-molecular-weight polymers. In LFMS, CPP reduced cooking loss and expressible moisture; OCP was more effective at higher levels.
      Texture analysis showed increased hardness and chewiness, whereas cohesiveness and springiness remained unchanged. Microscopy revealed a denser, more uniform structure in sausages containing 1.5% CPP. These changes were correlated with improved water re tention and texture.
      Conclusion: The findings in this study suggest that CPP, particularly OCP, is a promising functional ingredient for efforts to improve meat product quality by enhancing water re tention, gel strength, and texture. CPP also promotes protein polymerization, contributing to a more stable gel network.
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      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processe...

      Objective: This study evaluated the rheological properties of pork myofibrillar protein (MP) gels, as well as the physicochemical and textural properties of low-fat model sausages (LFMS) formulated with various levels of chickpea powder (CPP) processed via freeze drying (FCP) or oven-drying (OCP).
      Methods: Pork MP gels and LFMS were prepared with varying concentrations (0%–1.5%) of CPP, either as FCP or OCP. Viscosity, cooking yield, gel strength, protein surface hydro phobicity, and sulfhydryl group levels were analyzed, in conjunction with sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) and low-vacuum scanning elec tron microscopy (LV-SEM) investigations, to evaluate the rheological properties and pro tein structural changes in MP gels after CPP addition. Additionally, cooking loss, express ible moisture, texture profile, SDS-PAGE, and LV-SEM analyses were conducted to assess the physicochemical and textural properties of LFMS containing CPP. The data were ana lyzed using one-way and two-way ANOVA, followed by Duncan’s multiple range test (p<0.05) to determine significant differences.
      Results: Increases in CPP concentration enhanced MP gel viscosity, cooking yield, and gel strength; 1.5% CPP yielded optimal water retention and structural integrity. CPP reduced protein surface hydrophobicity and sulfhydryl content while increasing disulfide bond for mation, indicating improved gel network formation. SDS-PAGE confirmed myosin heavy chain reduction and the formation of higher-molecular-weight polymers. In LFMS, CPP reduced cooking loss and expressible moisture; OCP was more effective at higher levels.
      Texture analysis showed increased hardness and chewiness, whereas cohesiveness and springiness remained unchanged. Microscopy revealed a denser, more uniform structure in sausages containing 1.5% CPP. These changes were correlated with improved water re tention and texture.
      Conclusion: The findings in this study suggest that CPP, particularly OCP, is a promising functional ingredient for efforts to improve meat product quality by enhancing water re tention, gel strength, and texture. CPP also promotes protein polymerization, contributing to a more stable gel network.

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