Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: prioritizing epitope-based candidates
Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: prioritizing epitope-based candidates
Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. The increasing prevalence of this disease worldwide, the rise of antibiotic-resistant strains, and the difficulties in treatment necessitate the development of a vaccine, highlighting the significance of preventative measures to control and eradicate the infection. Currently, there is no widely available vaccine, partly due to the bacterium's ability to evade natural immunity and the limited research investment in gonorrhea compared to other diseases. To identify distinct vaccine candidates, we chose to focus on the uncharacterized, hypothetical proteins (HPs) as our initial approach. Using the
in silico method, we first carried out a comprehensive assessment of hypothetical proteins of
Neisseria gonorrhoeae, encompassing assessments of physicochemical properties, cellular localization, secretary pathways, transmembrane regions, antigenicity, toxicity, and prediction of B-cell and T-cell epitopes, among other analyses. Detailed analysis of all HPs resulted in the functional annotation of twenty proteins with a great degree of confidence. Further, using the immuno-informatics approach, the prediction pipeline identified one CD8
+ restricted T-cell epitope, seven linear B-cell epitopes, and seven conformational B-cell epitopes as putative epitope-based peptide vaccine candidates which certainly require further validation in laboratory settings. The study accentuates the promise of functional annotation and immuno-informatics in the systematic design of epitope-based peptide vaccines targeting
Neisseria gonorrhoeae.
Kant, Ravi
7701bda0-8d8b-4c7b-b988-75f6da612e2a
Khan, Mohd Shoaib
90025f02-7926-4f96-a428-d41b302d8a7e
Chopra, Madhu
a7faf3c3-200c-42fd-991c-77a03de223fd
Saluja, Daman
c632b624-e87e-4d82-a045-5e3af0dd8439
13 August 2024
Kant, Ravi
7701bda0-8d8b-4c7b-b988-75f6da612e2a
Khan, Mohd Shoaib
90025f02-7926-4f96-a428-d41b302d8a7e
Chopra, Madhu
a7faf3c3-200c-42fd-991c-77a03de223fd
Saluja, Daman
c632b624-e87e-4d82-a045-5e3af0dd8439
Kant, Ravi, Khan, Mohd Shoaib, Chopra, Madhu and Saluja, Daman
(2024)
Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: prioritizing epitope-based candidates.
Frontiers in Molecular Biosciences, 11, [1442158].
(doi:10.3389/fmolb.2024.1442158).
Abstract
Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. The increasing prevalence of this disease worldwide, the rise of antibiotic-resistant strains, and the difficulties in treatment necessitate the development of a vaccine, highlighting the significance of preventative measures to control and eradicate the infection. Currently, there is no widely available vaccine, partly due to the bacterium's ability to evade natural immunity and the limited research investment in gonorrhea compared to other diseases. To identify distinct vaccine candidates, we chose to focus on the uncharacterized, hypothetical proteins (HPs) as our initial approach. Using the
in silico method, we first carried out a comprehensive assessment of hypothetical proteins of
Neisseria gonorrhoeae, encompassing assessments of physicochemical properties, cellular localization, secretary pathways, transmembrane regions, antigenicity, toxicity, and prediction of B-cell and T-cell epitopes, among other analyses. Detailed analysis of all HPs resulted in the functional annotation of twenty proteins with a great degree of confidence. Further, using the immuno-informatics approach, the prediction pipeline identified one CD8
+ restricted T-cell epitope, seven linear B-cell epitopes, and seven conformational B-cell epitopes as putative epitope-based peptide vaccine candidates which certainly require further validation in laboratory settings. The study accentuates the promise of functional annotation and immuno-informatics in the systematic design of epitope-based peptide vaccines targeting
Neisseria gonorrhoeae.
Text
fmolb-11-1442158
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Accepted/In Press date: 4 July 2024
Published date: 13 August 2024
Additional Information:
Copyright © 2024 Kant, Khan, Chopra and Saluja.
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Local EPrints ID: 501550
URI: http://eprints.soton.ac.uk/id/eprint/501550
ISSN: 2296-889X
PURE UUID: d6a38d66-7497-4720-be3a-da3079c64b5a
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Date deposited: 03 Jun 2025 16:59
Last modified: 21 Aug 2025 03:53
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Contributors
Author:
Ravi Kant
Author:
Mohd Shoaib Khan
Author:
Madhu Chopra
Author:
Daman Saluja
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