Bioactivity and Functional Properties of Protein Hydrolysate from Muscle and Visceral Waste of Ribbon Fish (Lepturacanthus savala) Extracted by Three Different Proteolytic Enzymes

Pub Date : 2021-07-04 DOI:10.1080/22311866.2021.1953399

Undiganalu Gangadharappa Yathisha, I. Karunasagar, Mamatha Bs

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引用次数: 3

Abstract

Abstract The study focuses on utilization of solid visceral waste from ribbon fish in preparation of protein hydrolysates, possessing bioactive properties. Three different proteolytic enzymes (alcalase 2.4 U/g, flavourzyme 500 U/g, and papain 1 U/mL) were used to standardize the preparation of visceral waste protein hydrolysates (VPH) in comparison to muscle protein hydrolysate (MPH). Based on the preliminary studies, the hydrolysis process was standardized to 4 h at 1.5 % (w/v) enzyme concentration. MPH and VPH form all the enzymes were taken to study the bioactive (ACE-1 and antioxidant activity) and functional properties. MPH and VPH extracted from alcalase (IC50 = 0.835 and 0.902 mg/mL) showed higher angiotensin converting enzyme-1 (ACE-1) inhibitory activity than flavourzyme (IC50 = 1.602 and 1.323 mg/mL) and papain (1.263 and 1.565 mg/mL). Similarly, alcalase extracted samples were showed higher levels of radical scavenging activity (IC50 = 2.538 and 2.835 mg/mL) than papain (IC50 = 8.382 and 9.389 mg/mL) and flavourzyme (IC50 = 10.562 and 11.56 mg/mL). The present study proves that visceral waste, which is often discarded in a larger quantity, polluting the environment can be converted into a nutraceutical component with greater health benefits.

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三种不同蛋白水解酶提取带状鱼肌肉和内脏废物水解蛋白的生物活性和功能特性

摘要研究了利用带状鱼类内脏固体废弃物制备具有生物活性的水解蛋白。采用三种不同的蛋白水解酶(alcalase 2.4 U/g, flavour酶500 U/g，木瓜蛋白酶1 U/mL)对内脏废物蛋白水解物(VPH)的制备进行标准化，并与肌肉蛋白水解物(MPH)进行比较。在初步研究的基础上，将酶解过程标准化为1.5% (w/v)酶浓度下的4 h。取酶的MPH和VPH，研究其生物活性(ACE-1和抗氧化活性)和功能特性。从alcalase提取的MPH和VPH (IC50分别为0.835和0.902 mg/mL)对血管紧张素转换酶-1 (ACE-1)的抑制活性高于风味酶(IC50分别为1.602和1.323 mg/mL)和木瓜蛋白酶(IC50分别为1.263和1.565 mg/mL)。同样，alcalase提取样品的自由基清除活性(IC50分别为2.538和2.835 mg/mL)高于木瓜蛋白酶(IC50分别为8.382和9.389 mg/mL)和风味酶(IC50分别为10.562和11.56 mg/mL)。目前的研究证明，经常被大量丢弃的污染环境的内脏废物可以转化为具有更大健康益处的营养成分。

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