Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen

Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen

Objective(s):Brucellosis is a well-known domestic animal infectious disease, which is caused by Brucella bacterium. GroEL antigen increases Brucella survival and is one of the major antigens that stimulates the immune system. Hence, the objective of the present study was cloning and bioinformatics a...

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Main Authors: Mohammad Hadi Sekhavati, Reza Majidzadeh Heravi, Mojtaba Tahmoorespur, Soheil Yousefi, Tooba Abbassi-Daloii, Rahebe Akbari
Format: Article
Language:English
Published: Mashhad University of Medical Sciences 2015-05-01
Series:Iranian Journal of Basic Medical Sciences
Subjects:
Bioinformatics analysis
Brucella melitensis
Heat shock protein 60 kDa
Subunit vaccine
Online Access:http://ijbms.mums.ac.ir/pdf_4414_7e6f3ebf79064e12af2e2d66fc679047.html
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spelling doaj-79e477dc8a914d539202d73f69bf13e62020-11-25T00:59:19ZengMashhad University of Medical SciencesIranian Journal of Basic Medical Sciences 2008-38662008-38742015-05-011854995054414Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigenMohammad Hadi Sekhavati0Reza Majidzadeh Heravi1Mojtaba Tahmoorespur2Soheil Yousefi3Tooba Abbassi-Daloii4Rahebe Akbari5Faculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranFaculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranFaculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranFaculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranFaculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranFaculty of Agriculture, Ferdowsi University of Mashhad, Mashhad, IranObjective(s):Brucellosis is a well-known domestic animal infectious disease, which is caused by Brucella bacterium. GroEL antigen increases Brucella survival and is one of the major antigens that stimulates the immune system. Hence, the objective of the present study was cloning and bioinformatics analysis of GroEL gene. Materials and Methods: The full-length open reading frame of this gene was amplified by specific primers and cloned into pTZ57R/T vector. Also, the sequence of this gene in the Brucella melitensis strain Rev 1 was submitted to the NCBI gene bank for the first time. Several prediction software applications were also used to predict B and T-cell epitopes, secondary and tertiary structures, antigenicity ability and enzymatic degradation sites. The used software applications validated experimental results. Results: The results of phylogenetic analysis showed that the GroEL sequence had near homology with other species instead of other Brucella spp. The bioinformatics tools used in the current study were validated by the results of four different experimental epitope predictions. Bioinformatics analysis identified eight B and seven T-cell epitopes. Conclusion: According to the antigenic ability and proteasomal cleavage sites, four (150-160, 270-285,351-361 and 385-395) common epitopes were predicted for GroEL gene. Bioinformatics analysis showed that these regions had proper epitope characterization and so may be useful for stimulation of cell-mediated and humoral immunity system.http://ijbms.mums.ac.ir/pdf_4414_7e6f3ebf79064e12af2e2d66fc679047.htmlBioinformatics analysisBrucella melitensisHeat shock protein 60 kDaSubunit vaccine
collection DOAJ
language English
format Article
sources DOAJ
author Mohammad Hadi Sekhavati
Reza Majidzadeh Heravi
Mojtaba Tahmoorespur
Soheil Yousefi
Tooba Abbassi-Daloii
Rahebe Akbari
spellingShingle Mohammad Hadi Sekhavati
Reza Majidzadeh Heravi
Mojtaba Tahmoorespur
Soheil Yousefi
Tooba Abbassi-Daloii
Rahebe Akbari
Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
Iranian Journal of Basic Medical Sciences
Bioinformatics analysis
Brucella melitensis
Heat shock protein 60 kDa
Subunit vaccine
author_facet Mohammad Hadi Sekhavati
Reza Majidzadeh Heravi
Mojtaba Tahmoorespur
Soheil Yousefi
Tooba Abbassi-Daloii
Rahebe Akbari
author_sort Mohammad Hadi Sekhavati
title Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
title_short Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
title_full Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
title_fullStr Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
title_full_unstemmed Cloning, molecular analysis and epitopics prediction of a new chaperone GroEL Brucella melitensis antigen
title_sort cloning, molecular analysis and epitopics prediction of a new chaperone groel brucella melitensis antigen
publisher Mashhad University of Medical Sciences
series Iranian Journal of Basic Medical Sciences
issn 2008-3866
2008-3874
publishDate 2015-05-01
description Objective(s):Brucellosis is a well-known domestic animal infectious disease, which is caused by Brucella bacterium. GroEL antigen increases Brucella survival and is one of the major antigens that stimulates the immune system. Hence, the objective of the present study was cloning and bioinformatics analysis of GroEL gene. Materials and Methods: The full-length open reading frame of this gene was amplified by specific primers and cloned into pTZ57R/T vector. Also, the sequence of this gene in the Brucella melitensis strain Rev 1 was submitted to the NCBI gene bank for the first time. Several prediction software applications were also used to predict B and T-cell epitopes, secondary and tertiary structures, antigenicity ability and enzymatic degradation sites. The used software applications validated experimental results. Results: The results of phylogenetic analysis showed that the GroEL sequence had near homology with other species instead of other Brucella spp. The bioinformatics tools used in the current study were validated by the results of four different experimental epitope predictions. Bioinformatics analysis identified eight B and seven T-cell epitopes. Conclusion: According to the antigenic ability and proteasomal cleavage sites, four (150-160, 270-285,351-361 and 385-395) common epitopes were predicted for GroEL gene. Bioinformatics analysis showed that these regions had proper epitope characterization and so may be useful for stimulation of cell-mediated and humoral immunity system.
topic Bioinformatics analysis
Brucella melitensis
Heat shock protein 60 kDa
Subunit vaccine
url http://ijbms.mums.ac.ir/pdf_4414_7e6f3ebf79064e12af2e2d66fc679047.html
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