Virus Dataset Sample Info

> Dataset: 19272629 Search Result


Summary
Item Summary
Project 19272629
Virus Name HBV
Sample Number 32
Disease HBV intrauterine infection
Country China

Sample
ID Sample ID Age Gender Origin Detail
1 M1 21 M China View
2 M2 24 M China View
3 M3 19 M China View
4 M4 23 M China View
5 M5 26 M China View
6 M6 29 M China View
7 M7 22 M China View
8 M8 31 M China View
9 C1 28 M China View
10 C2 25 M China View
11 C3 25 M China View
12 C4 32 M China View
13 C5 26 M China View
14 C6 25 M China View
15 C7 26 M China View
16 C8 24 M China View
17 N1 0 M China View
18 N2 0 M China View
19 N3 0 M China View
20 N4 0 F China View
21 N5 0 F China View
22 N6 0 F China View
23 N7 0 M China View
24 N8 0 M China View
25 1 0 M China View
26 2 0 M China View
27 3 0 M China View
28 4 0 F China View
29 5 0 F China View
30 6 0 F China View
31 7 0 M China View
32 8 0 M China View

Literature
Item Summary
PMID 19272629
Title Association between genomic heterogeneity of hepatitis B virus and intrauterine infection.
Abstract Hepatitis B virus (HBV) intrauterine infection remains to be an important cause for a large number of persistent hepatitis B surface antigen (HBsAg) positive carriers in areas with a high HBV prevalence, particularly in China and Southeast Asia. In this study, the possible association between the HBV genomic heterogeneity and intrauterine infection was investigated by comparing the quasi species isolated from eight pairs of HBsAg-positive mothers and their neonates, who were infected intrauterinely with HBV, with clones from eight HBsAg-positive mothers whose neonates were not infected with HBV. The proportion of clones with specific mutations was compared among different subject groups, and phylogenetic analysis was performed to evaluate the significance of specific mutations. It was observed that the core promoter with conserved major functional regions and conserved hepatitis B e antigen (HBeAg) might be beneficial to HBV maternal-fetal transmission. Particularly, A1762T/G1764A mutations seemed to be disadvantageous for fetal infection. It was also shown that amino acid substitutions located in the immune epitopes of HBsAg were strongly associated with intrauterine HBV transmission. The clones with mutations such as amino acid P110S in preS1 region, P36L in preS2 region and C107R in S region might infect fetuses more readily. In addition, positively selected site analysis confirmed the above results.