Virus Dataset Sample Info

> Dataset: 26735580 Search Result


Summary
Item Summary
Project 26735580
Virus Name HPV
Sample Number 49
Disease Cervical carcinoma
Country China

Sample
ID Sample ID Age Gender Origin Detail
1 T1 54 China View
2 T2 43 China View
3 T6 40 China View
4 T7 51 China View
5 T12 55 China View
6 T14 61 China View
7 T27 68 China View
8 T46 32 China View
9 T3 41 China View
10 T5 59 China View
11 T10 59 China View
12 T21 51 China View
13 T26 54 China View
14 T28 36 China View
15 T29 45 China View
16 T37 45 China View
17 T40 55 China View
18 T41 44 China View
19 T45 52 China View
20 T15 44 China View
21 T18 54 China View
22 T25 36 China View
23 T32 35 China View
24 T16 60 China View
25 T8 40 China View
26 T20 41 China View
27 T39 57 China View
28 T4 48 China View
29 T17 41 China View
30 T36 29 China View
31 T33 46 China View
32 T47 59 China View
33 T43 47 China View
34 T35(a) 71 China View
35 T38 62 China View
36 T42 81 China View
37 T34 81 China View
38 T23 56 China View
39 T31 48 China View
40 T44 47 China View
41 T9b) 39 China View
42 T11 56 China View
43 T19 52 China View
44 T24 33 China View
45 T30 38 China View
46 T22 53 China View
47 T13 64 China View
48 SiHa China View
49 HeLa China View

Literature
Item Summary
PMID 26735580
Title Comprehensive Mapping of the Human Papillomavirus (HPV) DNA Integration Sites in Cervical Carcinomas by HPV Capture Technology
Abstract Integration of human papillomavirus (HPV) DNA into the host genome can be a driver mutation in cervical carcinoma. Identification of HPV integration at base resolution has been a longstanding technical challenge, largely due to sensitivity masking by HPV in episomes or concatenated forms. The aim was to enhance the understanding of the precise localization of HPV integration sites using an innovative strategy. Using HPV capture technology combined with next generation sequencing, HPV prevalence and the exact integration sites of the HPV DNA in 47 primary cervical cancer samples and 2 cell lines were investigated. A total of 117 unique HPV integration sites were identified, including HPV16 (n = 101), HPV18 (n = 7), and HPV58 (n = 9). We observed that the HPV16 integration sites were broadly located across the whole viral genome. In addition, either single or multiple integration events could occur frequently for HPV16, ranging from 1 to 19 per sample. The viral integration sites were distributed across almost all the chromosomes, except chromosome 22. All the cervical cancer cases harboring more than four HPV16 integration sites showed clinical diagnosis of stage III carcinoma. A significant enrichment of overlapping nucleotides shared between the human genome and HPV genome at integration breakpoints was observed, indicating that it may play an important role in the HPV integration process. The results expand on knowledge from previous findings on HPV16 and HPV18 integration sites and allow a better understanding of the molecular basis of the pathogenesis of cervical carcinoma.