Computational Insights into the Selecting Mechanism of α-Amylase Immobilized on Cellulose Nanocrystals: Unveiling the Potential of α-Amylases Immobilized for Efficient Poultry Feed Hydrolysis

IF 3.9 2区化学 Q1 BIOCHEMICAL RESEARCH METHODS

Bioconjugate Chemistry Pub Date : 2023-10-12 DOI:10.1021/acs.bioconjchem.3c00304

Seyedeh Fatemeh Sadeghian Motahar, Fereshteh Noroozi Tiyoula, Elaheh Motamedi, Mehrshad Zeinalabedini, Kaveh Kavousi* and Shohreh Ariaeenejad*,

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Abstract

The selection of an appropriate amylase for hydrolysis poultry feed is crucial for achieving improved digestibility and high-quality feed. Cellulose nanocrystals (CNCs), which are known for their high surface area, provide an excellent platform for enzyme immobilization. Immobilization greatly enhances the operational stability of α-amylases and the efficiency of starch bioconversion in poultry feeds. In this study, we immobilized two metagenome-derived α-amylases, PersiAmy2 and PersiAmy3, on CNCs and employed computational methods to characterize and compare the degradation efficiencies of these enzymes for poultry feed hydrolysis. Experimental in vitro bioconversion assessments were performed to validate the computational outcomes. Molecular docking studies revealed the superior hydrolysis performance of PersiAmy3, which displayed stronger electrostatic interactions with CNCs. Experimental characterization demonstrated the improved performance of both α-amylases after immobilization at high temperatures (80 °C). A similar trend was observed under alkaline conditions, with α-amylase activity reaching 88% within a pH range of 8.0 to 9.0. Both immobilized α-amylases exhibited halotolerance at NaCl concentrations up to 3 M and retained over 50% of their initial activity after 13 use cycles. Notably, PersiAmy3 displayed more remarkable improvements than PersiAmy2 following immobilization, including a significant increase in activity from 65 to 80.73% at 80 °C, an increase in activity to 156.48% at a high salinity of 3 M NaCl, and a longer half-life, indicating greater thermal stability within the range of 60 to 80 °C. These findings were substantiated by the in vitro hydrolysis of poultry feed, where PersiAmy3 generated 53.53 g/L reducing sugars. This comprehensive comparison underscores the utility of computational methods as a faster and more efficient approach for selecting optimal enzymes for poultry feed hydrolysis, thereby providing valuable insights into enhancing feed digestibility and quality.

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固定化在纤维素纳米晶体上的α-淀粉酶选择机制的计算见解：揭示固定化α-淀粉酶用于高效家禽饲料水解的潜力。

选择合适的淀粉酶水解家禽饲料对于提高消化率和获得高质量饲料至关重要。纤维素纳米晶体（CNCs）以其高表面积而闻名，为酶固定化提供了极好的平台。固定化大大提高了α-淀粉酶的操作稳定性和家禽饲料中淀粉生物转化的效率。在本研究中，我们将两种宏基因组衍生的α-淀粉酶PersiAmy2和PersiAmy3固定在CNCs上，并采用计算方法来表征和比较这些酶对家禽饲料水解的降解效率。进行了体外生物转化实验评估，以验证计算结果。分子对接研究揭示了PersiAmy3优越的水解性能，它与CNCs表现出更强的静电相互作用。实验表征表明，在高温（80°C）下固定化后，两种α-淀粉酶的性能都有所提高。在碱性条件下也观察到类似的趋势，在8.0至9.0的pH范围内，α-淀粉酶活性达到88%。两种固定化的α-淀粉酶在高达3M的NaCl浓度下都表现出耐盐性，并在13个使用周期后保持了50%以上的初始活性。值得注意的是，固定化后，PersiAmy3比PersiAmy2表现出更显著的改善，包括在80°C时活性从65%显著增加到80.73%，在3 M NaCl的高盐度下活性增加到156.48%，半衰期更长，表明在60至80°C范围内具有更大的热稳定性。家禽饲料的体外水解证实了这些发现，其中PersiAmy3产生53.53g/L的还原糖。这一综合比较强调了计算方法作为一种更快、更有效的方法来选择家禽饲料水解的最佳酶的实用性，从而为提高饲料消化率和质量提供了有价值的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bioconjugate Chemistry 生物-化学综合

CiteScore

9.00

自引率

2.10%

发文量

236

审稿时长

1.4 months

期刊介绍： Bioconjugate Chemistry invites original contributions on all research at the interface between man-made and biological materials. The mission of the journal is to communicate to advances in fields including therapeutic delivery, imaging, bionanotechnology, and synthetic biology. Bioconjugate Chemistry is intended to provide a forum for presentation of research relevant to all aspects of bioconjugates, including the preparation, properties and applications of biomolecular conjugates.