In silico molecular and functional characterization of a dual function antimicrobial peptide, hepcidin (GIFT-Hep), isolated from genetically improved farmed tilapia (GIFT, Oreochromis niloticus).

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal, genetic engineering & biotechnology Pub Date : 2023-11-21 DOI:10.1186/s43141-023-00579-6

K L Dhanya Lenin, Swapna P Antony

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Abstract

Background: Antimicrobial peptides (AMPs), innate immune response molecules in organisms, are also known for their dual functionality, exemplified by hepcidin-an immunomodulator and iron regulator. Identifying and studying various AMPs from fish species can provide valuable insights into the immune profiles of aquaculturally significant fish, which can be made use of in its culture.

Results: Hepcidin, a dual-function antimicrobial peptide, was isolated from the gill tissue of Genetically Improved Farmed Tilapia (GIFT-Hep). GIFT-Hep consists of a 90 amino acid pre-propeptide with a 24-mer signal, a 40-mer propeptide, and a 26-mer mature peptide region. The mature peptide had a molecular weight of 3015.61 Da, a theoretical pI of 8.78, a net charge of +4.25, and a protein-binding potential of 2.06 kcal/mol. Four disulfide bonds were formed by eight cysteine residues in the mature region. The presence of positively charged arginine residues renders the peptide 50% hydrophobic. Molecular analysis of GIFT-Hep revealed the presence of a furin propeptide convertase motif, RX(K/R)R, which facilitates trimming of the peptide to yield the mature GIFT-Hep. The hypothetical iron regulatory sequence, QSHLSL, was also identified in the mature peptide. In silico predictions about the characteristics of GIFT-Hep, such as charge, hydrophobicity, high surface accessibility, transmembrane helical regions, hydrophobic faces, hot spots, and cell-penetrating properties, suggest that the peptide functions as an iron regulatory antimicrobial agent.

Conclusions: This study reports a hepcidin antimicrobial peptide with both HAMP1 and HAMP2 properties isolated from genetically improved farmed tilapia, and further evaluation of the properties will prove the feasibility of GIFT-Hep being used as a therapeutant in aquaculture.

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从转基因养殖罗非鱼(GIFT, Oreochromis niloticus)中分离的双功能抗菌肽hepcidin (GIFT- hep)的分子和功能表征。

背景:抗菌肽(AMPs)是机体固有免疫反应分子，也因其双重功能而闻名，例如hepcidin-一种免疫调节剂和铁调节剂。鉴定和研究来自鱼类的各种amp可以为水产养殖重要鱼类的免疫特征提供有价值的见解，可以在其养殖中使用。结果:从转基因养殖罗非鱼(GIFT-Hep)鳃组织中分离到一种双功能抗菌肽Hepcidin。GIFT-Hep由一个含有90个氨基酸的24-mer信号前肽、一个40-mer前肽和一个26-mer成熟肽区组成。成熟肽的分子量为3015.61 Da，理论pI为8.78，净电荷为+4.25，蛋白质结合电位为2.06 kcal/mol。成熟区由8个半胱氨酸残基形成4个二硫键。带正电的精氨酸残基的存在使肽50%疏水。GIFT-Hep的分子分析显示，存在一个furin前肽转化酶基序RX(K/R)R，该基序有助于修剪肽以产生成熟的GIFT-Hep。假设的铁调控序列QSHLSL也在成熟肽中被鉴定出来。对GIFT-Hep的特性(如电荷、疏水性、高表面可及性、跨膜螺旋区、疏水性面、热点和细胞穿透特性)的计算机预测表明，该肽具有铁调控抗菌剂的功能。结论:本研究报道了一种从转基因养殖罗非鱼中分离到的具有HAMP1和HAMP2特性的hepcidin抗菌肽，对其特性的进一步评价将证明GIFT-Hep作为水产养殖治疗剂的可行性。

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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Journal, genetic engineering & biotechnology

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