In silico drug designing against Klebsiella pneumoniae adhesin protein
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BRAC University
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Abstract
Klebsiella pneumoniae, is one of the causative agents of many nosocomial infections. In spite of
having a plethora of information on the virulent factors of this bacteria, no definite vaccines have
yet been designed or developed in order to prevent the infections caused by the multidrug resistant
pathogen. Hence, taking this in account, the present study designed an in silico peptide vaccine
against K. pneumoniae, by predicting both B-cell and T-cell epitopes which is followed by
molecular docking. In this study, peptide sequences of Type 1 fimbrial adhesin protein of 28 strains
of K. pneumoniae were retrieved and then tested by in silico methods to identify the conserved
antigenic portions, present in all the 28 strains of the pathogen. VTLQRGSAY and
IYDSRTDKPW were found to be the most potential T-cell and B-cell epitope, among all the other
antigenic portions. Furthermore, the T-cell epitope VTLQRGSAY, when docked with HLA-A
protein, fitted perfectly inside the groove of it. These results prove that the designed epitopes could
be a potent candidate for vaccine development against K. pneumoniae.
Description
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Biotechnology, 2019.
Cataloged from PDF version of thesis.
Includes bibliographical references (page 29-36).
Cataloged from PDF version of thesis.
Includes bibliographical references (page 29-36).
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Thesis