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Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
by Abbasi, Sumra Wajid , Gulistan, Tayyaba , Ahmad, Sajjad , Amraiz, Deeba , Attique, Laaiba , Jamal, Syed Babar , Haider, Adnan , Aljasir, Mohammad Abdullah
in A35R glycoprotein / Allergenicity / Antigenic determinants / Antigenicity / Combined vaccines / Coronaviruses / COVID-19 / Design / DNA viruses / E8L membrane protein / Epidemics / Epitopes / Glycoproteins / Health aspects / Human monkeypox / Immune response (cell-mediated) / Immune response (humoral) / Immunogenicity / immunoinformatics / Lymphocytes B / Lymphocytes T / Major histocompatibility complex / Medical research / Medicine, Experimental / Membrane proteins / Molecular dynamics / monkeypox virus / Mpox / multiepitope vaccine / Pakistan / Peptides / Physicochemical properties / Proteins / protein–protein docking / Proteomes / Public health / Smallpox / Software / Toxicity / Vaccines / Viral proteins / Virulence / Viruses
2026
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Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
by Abbasi, Sumra Wajid , Gulistan, Tayyaba , Ahmad, Sajjad , Amraiz, Deeba , Attique, Laaiba , Jamal, Syed Babar , Haider, Adnan , Aljasir, Mohammad Abdullah
in A35R glycoprotein / Allergenicity / Antigenic determinants / Antigenicity / Combined vaccines / Coronaviruses / COVID-19 / Design / DNA viruses / E8L membrane protein / Epidemics / Epitopes / Glycoproteins / Health aspects / Human monkeypox / Immune response (cell-mediated) / Immune response (humoral) / Immunogenicity / immunoinformatics / Lymphocytes B / Lymphocytes T / Major histocompatibility complex / Medical research / Medicine, Experimental / Membrane proteins / Molecular dynamics / monkeypox virus / Mpox / multiepitope vaccine / Pakistan / Peptides / Physicochemical properties / Proteins / protein–protein docking / Proteomes / Public health / Smallpox / Software / Toxicity / Vaccines / Viral proteins / Virulence / Viruses
2026
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Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
by Abbasi, Sumra Wajid , Gulistan, Tayyaba , Ahmad, Sajjad , Amraiz, Deeba , Attique, Laaiba , Jamal, Syed Babar , Haider, Adnan , Aljasir, Mohammad Abdullah
in A35R glycoprotein / Allergenicity / Antigenic determinants / Antigenicity / Combined vaccines / Coronaviruses / COVID-19 / Design / DNA viruses / E8L membrane protein / Epidemics / Epitopes / Glycoproteins / Health aspects / Human monkeypox / Immune response (cell-mediated) / Immune response (humoral) / Immunogenicity / immunoinformatics / Lymphocytes B / Lymphocytes T / Major histocompatibility complex / Medical research / Medicine, Experimental / Membrane proteins / Molecular dynamics / monkeypox virus / Mpox / multiepitope vaccine / Pakistan / Peptides / Physicochemical properties / Proteins / protein–protein docking / Proteomes / Public health / Smallpox / Software / Toxicity / Vaccines / Viral proteins / Virulence / Viruses
2026

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Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach
Journal Article

Multiepitope-Based Peptide Vaccine Against A35R Glycoprotein and E8L Membrane Protein of Monkeypox Virus Using an Immunoinformatics Approach

Abbasi, Sumra Wajid,
Gulistan, Tayyaba,
Ahmad, Sajjad,
Amraiz, Deeba,
Attique, Laaiba,
Jamal, Syed Babar,
Haider, Adnan,
Aljasir, Mohammad Abdullah
2026
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Overview
Monkeypox virus, a zoonotic DNA virus belonging to the Orthopoxvirus genus, has emerged as a global health issue because of its fast spread to 104 nations over six continents. In the current study, an immunoinformatics pipeline was used to design a multiepitope-based prophylactic vaccine targeting the A35R glycoprotein and E8L membrane proteins of the monkeypox virus. Selected target proteins were surface-exposed, non-homologous to the human proteome, and essential for viral pathogenesis. B-cell and T-cell (MHC-I and MHC-II) epitopes with high antigenicity (>0.5), non-allergenicity, non-toxicity, and highly soluble in water with strong affinity towards innate and adaptive receptors, were prioritized. Shortlisted epitopes were combined to design the final vaccine utilizing an adjuvant (50S ribosomal L7/L12) and appropriate linkers for improved immunogenicity. Population coverage analysis showed wide HLA representation with 83.57% (MHC-I) and 88.8% (MHC-II) global coverage, including 89.6% for West Africa and 87.3% for Central Africa. Docking analysis of the vaccine construct with the TLR-4 receptor revealed stable interactions (−695.6 kcal/mol). Molecular dynamics simulations and binding free energies further confirmed structural stability. Immune simulations predicted strong activation of both humoral and cellular immune responses. These results indicate that the designed multiepitope vaccine construct is a viable option for additional experimental validation against the monkeypox virus.
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Publisher
MDPI AG,Multidisciplinary Digital Publishing Institute (MDPI)
Subject

A35R glycoprotein

/ Allergenicity

/ Antigenic determinants

/ Antigenicity

/ Combined vaccines

/ Coronaviruses

/ COVID-19

/ Design

/ DNA viruses

/ E8L membrane protein

/ Epidemics

/ Epitopes

/ Glycoproteins

/ Health aspects

/ Human monkeypox

/ Immune response (cell-mediated)

/ Immune response (humoral)

/ Immunogenicity

/ immunoinformatics

/ Lymphocytes B

/ Lymphocytes T

/ Major histocompatibility complex

/ Medical research

/ Medicine, Experimental

/ Membrane proteins

/ Molecular dynamics

/ monkeypox virus

/ Mpox

/ multiepitope vaccine

/ Pakistan

/ Peptides

/ Physicochemical properties

/ Proteins

/ protein–protein docking

/ Proteomes

/ Public health

/ Smallpox

/ Software

/ Toxicity

/ Vaccines

/ Viral proteins

/ Virulence

/ Viruses

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