Effect of Thermal Processing on the Conformational and Digestive Properties of Myosin

Zhang, Miao; Zhu, Shuran; Li, Qian; Xue, Dejiang; Jiang, Shuai; Han, Yu; Li, Chunbao

doi:10.3390/foods12061249

Cited by 6 publications

(5 citation statements)

References 42 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Additionally, the intense transverse shrinkage observed in the masseter at 60-70 °C coincided with the later onset of myosin denaturation in this muscle [43]. The study conducted by Zhang et al [44] delves into the intricate effects of thermal processing on the conformational and digestive properties of myosin, a crucial protein in meat. The findings reveal that increasing heating temperatures lead to notable changes in the structural integrity of myosin.…”

Section: Thermal Treatment Parameters Optimizationmentioning

confidence: 71%

“…In contrast, overheating at 100 °C results in a decrease in pepsin sensitivity, as indicated by an increase in the Michaelis constant (Km value) during digestion. However, overheating also prompts the production of new peptides with longer sequences, possibly due to the formation of irregular myosin aggregates [44].…”

Section: Thermal Treatment Parameters Optimizationmentioning

confidence: 99%

See 1 more Smart Citation

Innovative Implementation of Computational Fluid Dynamics in Proteins Denaturation Process Prediction in Goose Breast Meat and Heat Treatment Processes Optimization

Szpicer,

Bińkowska,

Stelmasiak

et al. 2024

Applied Sciences

View full text Add to dashboard Cite

This study aimed to calculate the optimal thermal processing parameters for goose meat using CFD simulation. CFD provides a precise determination of heat treatment conditions by predicting protein denaturation and mass loss, leading to higher quality and improved sensory experience and, thus, acceptance of products. Accurate calculation of these conditions reduces energy losses and enhances process efficiency in the food industry. This study focused on the prediction of protein denaturation and cooking loss in goose breast meat during roasting. Specific CFD techniques, including conjugate heat transfer and phase change models, were utilized to ensure accuracy in protein denaturation prediction. These models accounted for variations in meat composition, such as fat and water content across different samples, which improved the accuracy of the predictions. Optimal conditions were determined using a mathematical model. These conditions were 164.65 °C, 63.58% humidity, and a fan rotation of 16.59 rpm for 2000 s. The myosin, collagen, and actin denaturation levels, as well as cooking loss, closely matched predicted values. The findings show that CFD is a valuable method for evaluating protein denaturation and cooking loss in goose breast meat, potentially improving product quality and consistency in gastronomy and the meat industry. This innovative optimization method enhances food production efficiency and elevates sensory characteristics, physicochemical properties, and nutritional value, contributing to consumer satisfaction and market competitiveness. The model proposed in this paper can be adapted to predict denaturation in other types of meat or food products with necessary modifications, offering broad applicability. Potential limitations of using CFD in protein denaturation prediction in complex food matrices include the need for detailed compositional data and computational resources, which can be addressed in future research.

show abstract

Section: Thermal Treatment Parameters Optimizationmentioning

confidence: 71%

Section: Thermal Treatment Parameters Optimizationmentioning

confidence: 99%

Innovative Implementation of Computational Fluid Dynamics in Proteins Denaturation Process Prediction in Goose Breast Meat and Heat Treatment Processes Optimization

Szpicer,

Bińkowska,

Stelmasiak

et al. 2024

Applied Sciences

View full text Add to dashboard Cite

show abstract

“…The α ‐helix structure is predominantly sustained by the hydrogen bonds among carbonyl oxygen (CO) and amino hydrogen (NH) on the polypeptide chains 8 . And the stability of the hydrogen bonds that helps to maintain the protein structure can be affected by the loss or disruption of the α ‐helix structure, so the increase of α ‐helix content with increasing konjac polysaccharide addition was also in favor of stabilizing the MP structure 35 . According to the view of Fei et al ., 36 there is a positive correlation between natural α ‐helix structure and the WHC of the gel, and thus the preservation of the natural α ‐helix structure is an essential element in the enhancement of the composite gels' WHC.…”

Section: Resultsmentioning

confidence: 99%

Study on the interaction and gel properties of pork myofibrillar protein with konjac polysaccharides

Liu,

Yang,

et al. 2023

J Sci Food Agric

View full text Add to dashboard Cite

BackgroundNatural myofibrillar protein (MP) is sensitive to changes in the microenvironment, such as pH and ionic strength, and therefore can adversely affect the final quality of meat products. The aim of this study was to modify the natural MP as well as to improve the functional properties of MP. Therefore, the quality improvement effect of konjac polysaccharides with different concentrations (0, 1.5, 3, 4.5 and 6 g kg‐1 protein) on MP gels was investigated.ResultsWith a concentration of konjac polysaccharides of 6 g kg‐1 protein, the composite gel obtained the significant improvement of water binding (WHC increased by 7.71%) and textural performance (strength increased from 29.12 N∙mm to 37.55 N∙mm, an increase of 8.43 N∙mm). Meanwhile, konjac polysaccharides could help to form more disulfide bond and non‐disulfide covalent bond, which enhanced the crosslinking of MP and maintained the MP gel network structure. Then, with the reservation of α‐helix structure (a significant increase of 8.11%), the slower protein aggregation and the formation of small aggregates, this supported the formation of fine and homogeneous network structure and allowed a reduction in water mobility.ConclusionDuring the heating process, konjac polysaccharides could absorb the surrounding water and fill the gel system, which resulted in an increase in the water content of the gel network and enhanced the gel‐forming ability of the gel. Meanwhile, konjac polysaccharides might inhibit irregular aggregation of proteins and promote the formation of small aggregates, which in turn formed a homogeneous and continuous gel matrix by orderly arrangement.This article is protected by copyright. All rights reserved.

show abstract

“…Typically, bones are composed of hydroxyapatite, which is localized between gap zones of collagen fibrils [19]. Upon heating, the protein is solubilized, known as thermal solubilization [20]. It is worth noting that the liberation of peptides or proteins, particularly collagen, from the bone matrix led to the rise of the amount of HYP in the pretreatment solutions.…”

Section: Impact Of Sodium Chloride In Combination With Heat On Non-co...mentioning

confidence: 99%

Chemical Compositions and Characteristics of Biocalcium from Pre-Cooked Tuna Bone as Influenced by Sodium Chloride Pretreatment and Defatting by Asian Seabass Lipase

Benjakul,

Pomtong,

Chedosama

et al. 2024

Foods

View full text Add to dashboard Cite

Pre-cooked bone is a waste product generated during tuna processing and can serve as a potential source of biocalcium (BC). Generally, non-collagenous protein and fat must be removed properly from bone. A NaCl solution can be used to remove such proteins, while fish lipase can be used in a green process, instead of solvent, for fat removal. Thus, this study aimed to investigate the impact of NaCl pretreatment at different concentrations in combination with heat to eliminate non-collagenous proteins, and to implement fish lipase treatments at varying levels for fat removal, for BC production from pre-cooked tuna bone. Optimal NaCl pretreatment of bone was achieved when a 5% NaCl solution at 80 °C was used for 150 min. The lowest lipid content was obtained for bone defatted with crude lipase extract (CLE) at 0.30 Unit/g of bone powder for 2 h. BC powder from bone defatted with CLE (DF-BC) possessed greater contents of ash, calcium, and phosphorus and smaller particle sizes than the control BC powder. X-ray diffractograms suggested that both BC powders consisted of hydroxyapatite as a major compound, which had a crystallinity of 62.92–63.07%. An elemental profile confirmed the presence of organic and inorganic matter. Thus, BC powder could be produced from pre-cooked tuna bone using this ‘green process’.

show abstract

Effect of Thermal Processing on the Conformational and Digestive Properties of Myosin

Cited by 6 publications

References 42 publications

Innovative Implementation of Computational Fluid Dynamics in Proteins Denaturation Process Prediction in Goose Breast Meat and Heat Treatment Processes Optimization

Innovative Implementation of Computational Fluid Dynamics in Proteins Denaturation Process Prediction in Goose Breast Meat and Heat Treatment Processes Optimization

Study on the interaction and gel properties of pork myofibrillar protein with konjac polysaccharides

Chemical Compositions and Characteristics of Biocalcium from Pre-Cooked Tuna Bone as Influenced by Sodium Chloride Pretreatment and Defatting by Asian Seabass Lipase

Contact Info

Product

Resources

About