Virus Dataset Sample Info

> Dataset: 23019537 Search Result


Summary
Item Summary
Project 23019537
Virus Name HIV
Sample Number 32
Disease HIV-2 infection
Country Zimbabwe

Sample
ID Sample ID Age Gender Origin Detail
1 TC002 36 Female Zimbabwe View
2 TC106 36 Female Zimbabwe View
3 TC006 44 Male Zimbabwe View
4 TC050 44 Male Zimbabwe View
5 TC008 36 Male Zimbabwe View
6 TC118 36 Male Zimbabwe View
7 TC215 36 Male Zimbabwe View
8 TC045 35 Male Zimbabwe View
9 TC201 35 Male Zimbabwe View
10 TC114 32 Male Zimbabwe View
11 TC200 32 Male Zimbabwe View
12 TC117 37 Female Zimbabwe View
13 TC242 37 Female Zimbabwe View
14 TC003 46 Male Zimbabwe View
15 TC012 36 Female Zimbabwe View
16 TC013 61 Male Zimbabwe View
17 TC041 16 Female Zimbabwe View
18 TC049 43 Male Zimbabwe View
19 TC052 42 Female Zimbabwe View
20 TC056 33 Female Zimbabwe View
21 TC059 N/A Male Zimbabwe View
22 TC060 42 Female Zimbabwe View
23 TC070 50 Male Zimbabwe View
24 TC109 45 Female Zimbabwe View
25 TC110 33 Male Zimbabwe View
26 TC111 32 Female Zimbabwe View
27 TC113 35 Male Zimbabwe View
28 TC203 49 Male Zimbabwe View
29 TC204 45 Female Zimbabwe View
30 TC206 41 Female Zimbabwe View
31 TC216 33 Female Zimbabwe View
32 TC238 38 Female Zimbabwe View

Literature
Item Summary
PMID 23019537
Title Comparing Peripheral Blood Mononuclear Cell DNA and Circulating Plasma viral RNA pol Genotypes of Subtype C HIV-1.
Abstract INTRODUCTION: Drug resistance mutations (DRM) in viral RNA are important in defining to provide effective antiretroviral therapy (ART) in HIV-1 infected patients. Detection of DRM in peripheral blood mononuclear cell (PBMC) DNA is another source of information, although the clinical significance of DRMs in proviral DNA is less clear. MATERIALS AND METHODS: From 25 patients receiving ART at a center in Zimbabwe, 32 blood samples were collected. Dideoxy-sequencing of gag-pol identified subtype and resistance mutations from plasma viral RNA and proviral DNA. Drug resistance was estimated using the calibrated population resistance tool on www.hivdb.stanford.edu database. Numerical resistance scores were calculated for all antiretroviral drugs and for the subjects' reported regimen. Phylogenetic analysis as maximum likelihood was performed to determine the evolutionary distance between sequences. RESULTS: Of the 25 patients, 4 patients (2 of which had given 2 blood samples) were not known to be on ART (NA) and had exclusively wild-type virus, 17 had received Protease inhibitors (PI), 18, non-nucleoside reverse transcriptase inhibitors (NNRTI) and 19, two or more nucleoside reverse transcriptase inhibitors (NRTI). Of the 17 with history of PI, 10 had PI mutations, 5 had minor differences between mutations in RNA and DNA. Eighteen samples had NNRTI mutations, six of which demonstrated some discordance between DNA and RNA mutations. Although NRTI resistance mutations were frequently different between analyses, mutations resulted in very similar estimated phenotypes as measured by resistance scores. The numerical resistance scores from RNA and DNA for PIs differed between 2/10, for NNRTIs between 8/18, and for NRTIs between 17/32 pairs. When calculated resistance scores were collapsed, 3 pairs showed discordance between RNA and DNA for at least one PI, 6 were discordant for at least one NNRTI and 11 for at least one NRTI. Regarding phylogenetic evolutionary analysis, all RNA and DNA sequence pairs clustered closely in a maximum likelihood tree. CONCLUSION: PBMC DNA could be useful for testing drug resistance in conjunction with plasma RNA where the results of each yielded complementary information about drug resistance. Identification of DRM, archived in proviral DNA, could be used to provide for sustainable public health surveillance among subtype C infected patients.