Journal of Engineering and Applied Sciences
Year:
2017
Volume:
12
Issue:
5
Page No.
1212 - 1217
References
Asefeh, K., K. Mehdi and S. Fateme, 2016. In silico potential vaccine against oprf in multidrug-resistant
Pseudomonas aeruginosa. Intl. J. Pharm. Technol., 8: 14328-14340.
Bastani, A. and F. Sefid, 2016. Evaluation of leptospirainterrogans outer membrane protein Ompl37 linear and conformational epitopes. Intl. J. Adv. Biotechnol. Res., 7: 586-593.
Brüggemann, H., A. Henne, F. Hoster, H. Liesegang and A. Wiezer
et al., 2004. The complete genome sequence of Propionibacterium acnes, a commensal of human skin. Sci., 305: 671-673.
CrossRef | Direct Link | Buettner, F.F., S.A. Konze, A. Maas and G.F. Gerlach, 2011. Proteomic and immunoproteomic characterization of a DIVA subunit vaccine against
Actinobacillus pleuropneumoniae. Proteome Sci., 9: 12-23.
CrossRef | PubMed | Direct Link | Darbandian, P. and F. Sefid, 2017. Evaluation of OMP A (Outer Membrane Protein A) linear and conformational epitopes in
Acinetobacter baumannii. Intl. J. Adv. Biotechnol. Res., 7: 994-1003.
Direct Link | Dehghani, E. and S. Fateme, 2016. Evaluation of lamb linear and conformational epitopes on the vibrio harveyi. Intl. J. Adv. Biotechnol. Res., 7: 664-671.
Dowell, M.A., S. Valanne, G. Ramage, M.M. Tunney and J.V. Glenn
et al., 2005. Propionibacterium acnes types I and II represent phylogenetically distinct groups. J. Clin. Microbiol., 43: 326-334.
CrossRef | PubMed | Direct Link | Farahmandian, N., M. Seifipour and F. Sefid, 2016. Structure engineering of fhua as a vaccine candidate in
Escherichia coli. Master Thesis, Semnan University, Semnan, Iran.
Kafee, N. and F. Sefid, 2016. In silico identification and validation of OSPA 3D structure and its topology as a candidate for Lyme disease vaccine. Intl. J. Adv. Biotechnol. Res., 7: 949-956.
Kofeiti, A., M. Kalantar and F. Sefid, 2016. In silico determination and validation of Oprl structure and B cell epitopes as vaccine candidate in
Pseudomonas aeruginosa. Intl. J. Pharm. Technol., 8: 14314-14327.
Lei, L., C. Sun, S. Lu, X. Feng and J. Wang
et al., 2008. Selection of serotype-specific vaccine candidate genes in actinobacillus pleuropneumoniae and heterologous immunization with propionibacterium acnes. Vaccine, 26: 6274-6280.
PubMed | Direct Link | Mansfield, M.A., 1995. Rapid immunodetection on polyvinylidene fluoride membrane blots without blocking. Anal. Biochem., 229: 140-143.
PubMed | Direct Link | Pattison, I.H., D.G. Howell and J. Elliot, 1957. A haemophilus-like organism isolated from pig lung and the associated pneumonic lesions. J. Comp. Pathol. Ther., 67: 320-330.
PubMed | Direct Link | Payandeh, Z., A. Kofeiti and F. Sefid, 2015. Nanobody structure analysis and determination of the functional conserve amino acid with bioinformatic tools. Master Thesis, Zanjan University of Medical Sciences, Zanjan, Iran.
Ramjeet, M., V. Deslandes, J. Goure and M. Jacques, 2008. Actinobacillus pleuropneumoniae vaccines: From bacterins to new insights into vaccination strategies. Anim. Health Res. Rev., 9: 25-45.
PubMed | Direct Link | Schaller, A., R. Kuhn, P. Kuhnert, J. Nicolet and T.J. Anderson
et al., 1999. Characterization of apxlVA, a new RTX determinant of
Actinobacillus pleuropneumoniae. Microbiol., 145: 2105-2116.
PubMed | Direct Link | Sefid, F., I. Rasooli and A. Jahangiri, 2013. In silico determination and validation of
Acinetobacter baumannii utilization a structure and ligand binding site. Biomed Res. Intl., 2013: 1-14.
PubMed | Direct Link | Sefid, F., I. Rasooli and Z. Payandeh, 2016. Homology modeling of a Camelid antibody fragment against a conserved region of Acinetobacter baumannii biofilm associated protein (Bap). J. Theor. Biol., 397: 43-51.
PubMed | Direct Link | Sefid, F., I. Rasooli, A. Jahangiri and H. Bazmara, 2015. Functional exposed amino acids of baua as potential immunogen against
Acinetobacter Baumannii. Acta Biotheor., 63: 129-149.
CrossRef | Direct Link | Shibusawa, Y., Y. Ino, T. Kinebuchi, M. Shimizu, H. Shi ndo and Y. Ito, 2003. Purification of single-stranded DNA binding protein from an
Escherichia coli lysate using counter-current chromatography, partition and precipitation. J. Chromatogr., 793: 275-279.
Direct Link | Turni, C. and P.J. Blackall, 2007. An evaluation of the apxIVA based PCR-REA method for differentiation of
Actinobacillus pleuropneumoniae. Vet. Microbiol., 121: 163-169.
PubMed | Direct Link | Wu, L., 2006. Structure and functional characterization of single-strand DNA binding protein SSDP1: Carboxyl-terminal of SSDP1 has transcription activity. Biochem. Biophys. Res. Commun., 339: 977-984.
PubMed | Direct Link | Wyatt, M.F., B.K. Stein and A.G. Brenton, 2006. Characterization of various analytes using matrix-assisted laser desorption ionization time-of-flight mass spectrometry and 2-[(2 E)-3-(4-tert-Butylphenyl)-2-methylprop-2-enylidene] malononitrile matrix. Anal. Chem., 78: 199-206.
PubMed | Direct Link | Yang, P., L. Lei, F. Xie, W. Han and J. Wang, 2009. Immune activity of Propionibacterium acnes against Actinobacillus pleuropneumoniae infection in mice. Zhongguo Yufang Shouyi Xuebao Chin. J. Preventive Vet. Med., 31: 596-599.
Direct Link | Yuan, F., J. Liu, Y. Guo, C. Tan and S. Fu
et al., 2011. Influences of ORF1 on the virulence and immunogenicity of
Actinobacillus pleuropneumoniae. Current Microbiol., 63: 574-580.
CrossRef | PubMed | Direct Link | Zhang, A., C. Xie, H. Chen and M. Jin, 2008. Identification of immunogenic cell wall-associated proteins of Streptococcus suis serotype 2. Proteomics, 8: 3506-3515.
CrossRef | Direct Link |