L Johnston-Dow scite author profile

We analyzed plasma HIV-1 from 27 antiretroviral drug-naive Ugandan adults. Previous subtype analysis of env and gag sequences from these samples identified subtypes A, C, D, and recombinant HIV-1. Sequences of HIV-1 protease and reverse transcriptase (RT) were obtained with a commercial HIV-1 genotyping system. Subtypes based on protease sequences differed from gag subtypes for 5 of 27 samples, demonstrating a high rate of recombination between the gag and pol regions. Protease and RT sequences were analyzed for the presence of amino acid polymorphisms at positions that are sites of previously characterized drug resistance mutations. At those sites, frequent polymorphisms were detected at positions 36 and 69 in protease and positions 179, 211, and 214 in RT. Subtype-specific amino acid motifs were identified in protease. Most of the subtype A sequences had the amino acids DKKM at positions 35, 57, 69, and 89, whereas most subtype D sequences had the amino acids ERHL at those positions. Detection of those polymorphisms may provide a useful approach for rapid identification of subtype A and D isolates in Uganda. This analysis significantly increases the number of Ugandan protease and RT sequences characterized to date and demonstrates successful use of a commercial HIV-1 genotyping system for analysis of diverse non-B HIV-1 subtypes.

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Automated DNA sequencing and analysis of 106 kilobases from human chromosome 19q13.3

Martin-Gallardo

McCombie

Gocayne

et al. 1992

Nat Genet

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A total of 116,118 basepairs (bp) derived from three cosmids spanning the ERCC1 locus of human chromosome 19q13.3 have been sequenced with automated fluorescence-based sequencers and analysed by polymerase chain reaction amplification and computer methods. The assembled sequence forms two contigs totalling 105,831 bp, which contain a human fosB proto-oncogene, a gene encoding a protein phosphatase, two genes of unknown function and the previously-characterized ERCC1 DNA repair gene. This light band region has a high average density of 1.4 Alu repeats per kilobase. Human chromosome light bands could therefore contain up to 75,000 genes and 1.5 million Alu repeats.

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HLA-B Alleles Associated with the B15 Serologically Defined Antigens

Steiner

Bush

et al. 1997

Human Immunology

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HLA‐A typing: comparison between serology, the amplification refractory mutation system with polymerasee chain reaction and sequencing

Pera¹,

Delfino²,

Morabito³

et al. 1997

Tissue Antigens

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In this study we typed HLA-A polymorphisms by a new sequence-based typing (SBT) method, which involved one PCR reaction and four sequencing reactions covering exon 2 and exon 3. This method allowed complete identification of all known HLA-A alleles and revealed the presence of a new allele, named HLA-A*2608. We also introduced sequencing of exon 4 for some samples in order to discriminate the allelic pairs that are identical in exon 2 and 3, thus improving SBT resolution. Finally, we compared the results obtained by SBT with data obtained by serological typing and the amplification refractory mutation system (ARMS-PCR). Together, our results suggest that the SBT here described provides an optimal HLA-A typing technique that may be useful in selecting donor-recipient pairs in bone marrow transplantation between unrelated individuals.

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L Johnston-Dow

A Generic Sequencing Based Typing Approach for the Identification of HLA-A Diversity

Sequence Note: Analysis of HIV Type 1 Protease and Reverse Transcriptase in Antiretroviral Drug-Naive Ugandan Adults

Automated DNA sequencing and analysis of 106 kilobases from human chromosome 19q13.3

HLA-B Alleles Associated with the B15 Serologically Defined Antigens

HLA‐A typing: comparison between serology, the amplification refractory mutation system with polymerasee chain reaction and sequencing

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