@ARTICLE{Shirazi, author = {Hamidiyeh, Faezeh and Shirazi, Mohammad Hassan and Fallah Mehrabadi, Jalil and Pourmand, Mohammadreza and Ostad Mohammadi, Samaneh and Molla agha Mirzaei, Hedrousha and Afshar, Davood and }, title = {PapG Gene cloning, Escherichia coli uropathogen and examination of its subsequence diversity}, volume = {16}, number = {1}, abstract ={infections are one of the most prevalent human infections. Despite different antigens and toxins of interfering bacteria in infection, one of the important agents in the infections arising from Escherichia coli and the other gram negative bacteria is bacterial binding to host cell surface, so inhibiting the bacterial binding is an appropriate strategy to inhibit the infection. Whereas PapG protein acts as adhesion, it can be an appropriate candidate for developingvaccine. Material and Methods: A Genomic DNA of Escherichia coli bacterium extracted from clinical strain containing PapGII gene. Upon designing primer for PapGII gene, the PCR reaction was applied. The product of PCR was cloned in pBluescript (SK-) plasmid. Using Clustal W and MEGA4 software, the gained subsequence was alignmented with the gene subsequence existing in gene bank and its gene diversity was studied. Results: Based on was down alignment, N terminal on the protein surface and DNA are protected. Conclusion: N terminal domain of PapG gene is a conserved sequence among clinical straines? And it could be used for designing a vaccine against urinary tract infection. }, URL = {http://ismj.bpums.ac.ir/article-1-385-en.html}, eprint = {http://ismj.bpums.ac.ir/article-1-385-en.pdf}, journal = {Iranian South Medical Journal}, doi = {}, year = {2013} }