Morufat Yusuf, Abraham Ajayi, Utibeima Udo Essiet, Oyin Oduyebo, Adeyemi Isaac Adeleye, Stella Ifeanyi Smith
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T-cell epitope prediction was done by determining peptide-binding affinities of major histocompatibility complex (MHC) classes I and II using NetMHC pan 2.8 and NetMHC-II pan 3.2, respectively. <i>ompC</i> sequence analysis revealed conserved region among <i>ompC</i>s of <i>Salmonella</i> Serovars. A total of 66.7% of <i>ompC</i>s were stable with instability index value < 40 and molecular weight that ranged from 27 745.47 to 32 714.32 kDa. All <i>ompC</i>s were thermostable and hydrophilic with the exception of <i>S.</i> Pomona (14p) isolate that had <i>ompC</i> with GRAVY value of 0.028 making it hydrophobic. Linear B-cell epitope prediction revealed ability of <i>ompC</i> to elicit humoral immunity. Multiple B-cell epitopes that were exposed and buried were observed on several positions on the <i>ompC</i> sequences. T-cell epitope prediction revealed epitopes with strong binding affinity to MHC-I and -II. Strong binding to human leukocyte antigen (HLA-A) ligands, including HLA-A03:1, HLA-A24:02 and HLA-A26:01 in the case of MHC-I were observed. While binding affinity to H-2 IAs, H-2 IAq and H-2 IAu (H-2 mouse molecules) were strongest in the case of MHC-II. <i>ompC</i>s of NTS serovars isolated from different food animal sources indicated ability to elicit humoral and cell-mediated immunity. 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引用次数: 0
摘要
非伤寒沙门氏菌(NTS)感染在全球范围内发生,发病率和死亡率高。抗生素耐药性的增加和NTS疫苗的缺乏加剧了对公共卫生的挑战。本研究对从不同食用动物中分离的外膜蛋白C (OmpC)血清型进行了鉴定,并对其抗原性进行了预测。采用聚合酶链反应(PCR)扩增27株NTS血清型的ompC并进行测序。分析序列数据,利用BepiPred工具进行b细胞表位预测。t细胞表位预测分别使用NetMHC pan 2.8和NetMHC-II pan 3.2测定主要组织相容性复合体(MHC) I类和II类的肽结合亲和力。ompC序列分析揭示了沙门氏菌血清型ompC的保守区。除S. Pomona (14p)分离物的ompC的GRAVY值为0.028,为疏水性外,66.7%的ompC是稳定的,不稳定指数值。线性b细胞表位预测揭示了ompC引发体液免疫的能力。在ompC序列的多个位置上观察到多个暴露和埋藏的b细胞表位。t细胞表位预测显示与MHC-I和-II结合亲和力强的表位。观察到MHC-I与人白细胞抗原(HLA-A)配体的强结合,包括HLA-A03:1、HLA-A24:02和HLA-A26:01。而MHC-II与H-2 IAs、H-2 IAq和H-2 IAu (H-2小鼠分子)的结合亲和力最强。从不同的食用动物来源分离的NTS血清型的ompc表明能够引发体液和细胞介导的免疫。因此,NTS血清型的ompCs是生产NTS疫苗的潜在候选物。
Comparative Molecular Analysis and Antigenicity Prediction of an Outer Membrane Protein (ompC) of Non-typhoidal Salmonella Serovars Isolated from Different Food Animals in Lagos, Nigeria.
Non-typhoidal Salmonella (NTS) infections occur globally with high morbidity and mortality. The public health challenge caused is exacerbated by increasing rate of antibiotic resistance and absence of NTS vaccine. In this study, we characterized the outer membrane protein C (OmpC) serovars isolated from different food animals and predicted antigenicity. ompC of 27 NTS serovars were amplified by polymerase chain reaction (PCR) and sequenced. Sequence data were analysed and B-cell epitope prediction was done by BepiPred tool. T-cell epitope prediction was done by determining peptide-binding affinities of major histocompatibility complex (MHC) classes I and II using NetMHC pan 2.8 and NetMHC-II pan 3.2, respectively. ompC sequence analysis revealed conserved region among ompCs of Salmonella Serovars. A total of 66.7% of ompCs were stable with instability index value < 40 and molecular weight that ranged from 27 745.47 to 32 714.32 kDa. All ompCs were thermostable and hydrophilic with the exception of S. Pomona (14p) isolate that had ompC with GRAVY value of 0.028 making it hydrophobic. Linear B-cell epitope prediction revealed ability of ompC to elicit humoral immunity. Multiple B-cell epitopes that were exposed and buried were observed on several positions on the ompC sequences. T-cell epitope prediction revealed epitopes with strong binding affinity to MHC-I and -II. Strong binding to human leukocyte antigen (HLA-A) ligands, including HLA-A03:1, HLA-A24:02 and HLA-A26:01 in the case of MHC-I were observed. While binding affinity to H-2 IAs, H-2 IAq and H-2 IAu (H-2 mouse molecules) were strongest in the case of MHC-II. ompCs of NTS serovars isolated from different food animal sources indicated ability to elicit humoral and cell-mediated immunity. Hence, ompCs of NTS serovars are potential candidate for production of NTS vaccines.
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Bioinformatics and Biology Insights is an open access, peer-reviewed journal that considers articles on bioinformatics methods and their applications which must pertain to biological insights. All papers should be easily amenable to biologists and as such help bridge the gap between theories and applications.
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