摘要
Objective To study the structure specificity of HPV16E6E7 gene from cervical carcinoma biopsies of patients in Shandong province. Methods The tissue DNAs were extracted from cervical carcinoma biopsies of 14 patients of Chinese from Shandong province. By PCR method using HPV multiple primers, the HPV types were identified in cervical carcinoma tissues, Using the tissue DNA of the 2 cases with the infection of HPV16 type only as templates, HPV16E6E7 gene was amplified by PCR respectively, then inserted the HPV16E6E7 gene into pALTER I vector, and obtained the recombinant plasmid pALTER HPV16E6E7. The constructs were sequenced using Sanger method, and then compared with the sequence of HPV16E6E7 gene of the prototype. Results Sequencing results showed that HPV16E6E7 gene in the 2 cases had sequence diversity from that of the prototype, and a total of five nucleotide exchanges were detected, four of these led to amino acid exchanges. Conclusion There are structure differences between the HPV16E6E7 of Chinese and that of the prototype.
Objective To study the structure specificity of HPV16E6E7 gene from cervical carcinoma biopsies of patients in Shandong province. Methods The tissue DNAs were extracted from cervical carcinoma biopsies of 14 patients of Chinese from Shandong province. By PCR method using HPV multiple primers, the HPV types were identified in cervical carcinoma tissues, Using the tissue DNA of the 2 cases with the infection of HPV16 type only as templates, HPV16E6E7 gene was amplified by PCR respectively, then inserted the HPV16E6E7 gene into pALTER I vector, and obtained the recombinant plasmid pALTER HPV16E6E7. The constructs were sequenced using Sanger method, and then compared with the sequence of HPV16E6E7 gene of the prototype. Results Sequencing results showed that HPV16E6E7 gene in the 2 cases had sequence diversity from that of the prototype, and a total of five nucleotide exchanges were detected, four of these led to amino acid exchanges. Conclusion There are structure differences between the HPV16E6E7 of Chinese and that of the prototype.
基金
Supported by National Natural Science Foundation of China(No.3 970 0 13 1)
