加热条件对糖基化罗非鱼鱼鳞胶原肽理化及消化特性的影响OA
Effects of Thermal Processing Conditions on the Physicochemical and Digestive Properties of Glycated Tilapia Scale Collagen Peptides
本研究系统探究了罗非鱼鳞胶原肽(TSCP)与低聚半乳糖(GOS)在不同热处理条件(80、100、120℃)下制备的糖基化修饰产物(G-TSCP)的理化特性及消化特性.通过测定G-TSCP的色差(ΔE)、pH、荧光强度、接枝度及糠氨酸含量等指标评价其糖基化程度,并采用傅里叶变换红外光谱(FTIR)、体外模拟消化实验及分子排阻色谱对糖基化肽的结构特征及消化特性进行分析.结果表明,随加热时间延长,G-TSCP接枝度、ΔE值及荧光强度均显著增加(P<0.05),而pH显著降低(P<0.05);其中,100℃加热 60 min制备的G-TSCP接枝度达到9.58%±0.23%,ΔE值为4.39±0.13,荧光强度为502803±8089 Rfu,均为各处理组最高值;120℃加热20 min制备的G-TSCP pH最低(7.55±0.03).相关性分析显示,G-TSCP接枝度与ΔE值(r=0.83,P<0.01)及荧光强度(r=0.77,P<0.05)呈显著正相关,而pH与ΔE值(r=-0.81,P<0.01)及荧光强度(r=-0.87,P<0.01)呈极显著负相关.FTIR分析表明,糖基化修饰导致TSCP二级结构发生改变,较未修饰的TSCP,在 120℃下加热 20 min后G-TSCP的β-转角结构比例从 46.5%降至 24.6%,而无规则卷曲结构比例从 12.4%增至 33.6%.体外模拟消化实验表明,G-TSCP的水解度较未修饰TSCP显著降低 22.18%~68.8%(P<0.05),其中 120℃加热 20 min制备的G-TSCP在肠消化阶段的水解度最低(6.65%±0.18%);100℃和120℃制备的G-TSCP水解产物在1000~5000 Da分子量区间的比例较TSCP显著提高.综合上述结果,当加热条件为100℃/40 min时,G-TSCP的接枝度为8.07%,糠氨酸含量为 5.83 μg/100 mg TSCP,糖基化程度适中,其胃肠消化水解度为 10.27%,显著低于TSCP的消化水解度(P<0.05).因此,在 100℃/40 min加热条件下制备的G-TSCP可有效调控胶原肽的结构特性,降低其消化性,这为缓释功能性肽制品开发提供了理论依据.
This study investigated the physicochemical and digestive properties of glycated tilapia scale collagen peptides(G-TSCP)reacted with galactooligosaccharides(GOS)under different thermal processing conditions(80,100,120℃).The glycation degree was evaluated through analysis of colorimetric parameters(ΔE),pH variation,fluorescence intensity,grafting degree,and furosine level.Structural characterization was performed using Fourier transform infrared spectroscopy(FTIR),while digestibility was assessed through in vitro simulated gastrointestinal digestion coupled with size exclusion chromatography(SEC).Thermal processing analysis revealed significant time-dependent alterations(P<0.05):grafting degree(9.58%±0.23%),ΔE values(4.39±0.13),and fluorescence intensity(502803±8089 Rfu)reached maximum levels at 100℃/60 min treatment,while the most pronounced pH reduction(7.55±0.03)occurred at 120℃/20 min processing.Significantly positive correlations were observed between grafting degree and ΔE(r=0.83,P<0.01)and fluorescence intensity(r=0.77,P<0.05),while pH was negatively correlated with these parameters(r=-0.81,P<0.01;r=-0.87,P<0.01).Secondary structure analysis indicated that glycation-induced conformational changes were characterized by the decrease of β-turn content(from 46.5%to 24.6%)and the increase of random coil structures(from 12.4%to 33.6%)under the processing condition of 120℃/20 min when compared to native TSCP.Digestibility assessments demonstrated that G-TSCP exhibited lower hydrolysis degree(from 22.18%to 68.8%)when compared to native TSCP(P<0.05),with the 120℃/20 min processed sample showing minimal intestinal digestibility(6.65%±0.18%).SEC analysis revealed that thermal processing at both 100℃and 120℃significantly enhanced the ratio of 1000~5000 Da fractions in G-TSCP,showing higher proportions than unmodified TSCP.Under optimal heating conditions(100℃/40 min),the glycated tilapia scale collagen peptide(G-TSCP)exhibited a grafting degree of 8.07%and a furosine content of 5.83 μg/100 mg TSCP,indicating moderate glycation.Compared to native TSCP,G-TSCP demonstrated significantly reduced gastrointestinal hydrolysis(10.27%)(P<0.05),suggesting enhanced digestibility resistance.These findings reveal that controlled thermal glycation can modulate collagen peptide structure and attenuate digestion,providing a potential strategy for designing sustained-release bioactive peptide formulations.
王松磊;陈兵;董士远;肖正元;李萌
中国海洋大学三亚海洋研究院,海南 三亚 572000中国海洋大学三亚海洋研究院,海南 三亚 572000中国海洋大学三亚海洋研究院,海南 三亚 572000||中国海洋大学食品科学与工程学院,山东 青岛 266000中国海洋大学三亚海洋研究院,海南 三亚 572000中国海洋大学三亚海洋研究院,海南 三亚 572000
轻工纺织
罗非鱼鳞胶原肽加热糖基化理化性质消化特性
tilapia scale collagen peptidesheatingglycationphysicochemical propertiesdigestive properties
《食品工业科技》 2026 (5)
61-70,10
海南省重点研发项目(ZDYF2023XDNY062).
评论