Prediction of Geraniol Bond Mode in Aspergillus niger Linalool Dehydratase – Isomerase

Yelfi Anwar, A. Putra, E. Iftitah, P. Simanjuntak, S. Kumala
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Abstract

Geraniol is a very valuable aroma chemical and has commonly been used in fragrances and aroma compound. Geraniol biotransformation by Aspergillus niger has been studied. The main bioconversion products obtained from geraniol and liquid culture of A. niger are linalool and alpha-terpineol. Linalool plays a major role in anti-inflammatory, antibacterial and antioxidant activities. This study aims to know the interaction of geraniol in Aspergillus niger enzyme with docking molecular. Comparative modeling of Aspergillus niger enzyme was conducted by means of one of the crystal structure of Linalool Dehydratase – Idomerase (LDI) as a template. The best model of this comparative modeling was then used in docking molecular to investigate geraniol binding mode inactive site enzyme of Aspergillus niger. Inactive site enzyme of Aspergillus niger, geraniol is located with hydrophobic and hydrogen bonds: Amino acid – the amino acids are Asn 105, Arg 96, Lys 112 inactive site - OH with hydrogen bond, Arg 97 inactive site – CH3 with hydrophobic bond and Leu54 inactive site – CH3 with the hydrophobic bond. The distances among pharmacophore respectively are 3,603 A, 6,768 A, and 7,345A. It has higher score (ΔGbind: -3.4 kcal/mol) compared to linalool (ΔGbind: -3.6 kcal/mol). Virtual tethering of linalool with LDI Aspergillus niger enzyme in amino acid Leu120 and Glu118 had been done. The pharmacophore is - OH and methyl C8 group. The distances among pharmacophore respectively are 5,835 Å, 2,52 Å, and 5,32 Å. Virtual tethering of LDI Aspergillus niger enzyme with geraniol has a higher score (ΔGbind: -3.4 kcal/mol) compared to linalool (ΔGbind: -3.6 kcal/mol). It shows that interaction between linalool and LDI Aspergillus niger enzyme is easier to occur than the interaction between geraniol and LDI Aspergillus niger enzyme, geraniol reaction to linalool that occurs is rearrangement reaction.
黑曲霉芳樟醇脱水酶-异构酶中香叶醇键模式的预测
香叶醇是一种非常有价值的芳香化学物质,在香料和芳香化合物中有着广泛的应用。研究了黑曲霉对香叶醇的生物转化。从香叶醇和黑曲霉液体培养中获得的主要生物转化产物是芳樟醇和-松油醇。芳樟醇在抗炎、抗菌和抗氧化方面起着重要作用。本研究旨在了解黑曲霉酶中香叶醇与对接分子的相互作用。以芳樟醇脱水酶- Idomerase (LDI)的晶体结构之一为模板,对黑曲霉酶进行了比较建模。然后将该比较建模的最佳模型用于对接分子研究黑曲霉香叶醇结合模式失活位点酶。黑曲霉的失活位点酶,香叶醇位于疏水键和氢键上:氨基酸-氨基酸为Asn 105、Arg 96、Lys 112失活位点- OH具有氢键,Arg 97失活位点- CH3具有疏水键,Leu54失活位点- CH3具有疏水键。药效团之间的距离分别为3,603 A、6,768 A和7,345A。与芳樟醇(ΔGbind: -3.6 kcal/mol)相比,它具有更高的分数(ΔGbind: -3.4 kcal/mol)。用LDI黑曲霉酶在氨基酸Leu120和Glu118上虚拟捆绑芳樟醇。药效团是- OH和甲基C8基团。药效团之间的距离分别为5,835 Å、2,52 Å和5,32 Å。与芳樟醇(ΔGbind: -3.6 kcal/mol)相比,香叶醇对LDI黑曲霉酶的虚拟捆绑得分更高(ΔGbind: -3.4 kcal/mol)。说明芳樟醇与LDI黑曲霉酶的相互作用比香叶醇与LDI黑曲霉酶的相互作用更容易发生,发生的香叶醇与芳樟醇的反应为重排反应。
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
CiteScore
0.60
自引率
0.00%
发文量
10
审稿时长
15 weeks
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