Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Over 20 years into the ever-worsening AIDS pandemic, genetic variation remains the greatest obstacle for treating and preventing HIV-1 infection. Mutation rate assays for HIV-1 have been reported; however, none measure directly the forward mutation rate during replication of the virus in cell culture while still retaining the ability to propagate and further study mutant proviruses. Therefore, the objective of the current study was to develop such a phenotypic cell-based assay for measuring the forward mutation rate of HIV-1. Conventional recombinant DNA techniques and polymerase chain reaction were used to create a replication defective HIV-1 vector, pNL4-3Delta+cass, which is based on the NL4-3 strain and contains the thymidine kinase gene from human herpes virus type 1 as the mutational target. A series of transfection and infection steps were used to introduce the vector into 143B cells, which are negative for thymidine kinase function, and produce vector virus for a single cycle of replication. Viral titers were measured by counting the number of drug resistant colonies on the assay plates, and forward mutation rates were calculated from the viral titers. Mutant proviruses were sequenced to determine the types of genetic alterations that occurred. The average forward mutation rate for HIV-1 was 2.2 x 10(-5)mutations/base/cycle. The majority of mutations were base substitutions, including high frequencies of C-->U and G-->A transitions. Single adenosine insertions were also observed frequently. The new assay is economical and provides a direct measurement of the mutation rate during a single cycle of viral replication. Target cells containing mutant proviruses survive the drug selection process and may be propagated for further analysis. The new assay is novel and has many advantages over previous mutation rate assays and thus will be very useful in future studies on genetic variation of HIV-1.
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PMID:A new cell-based assay for measuring the forward mutation rate of HIV-1. 1566 56

Live attenuated HIV vaccines offer a means to introduce exogenous sequences into the viral genome to target the virus elimination in vivo. Foreign genes inserted into the nef region of HIV-1 NL4-3 were found to be rapidly deleted following virus infection and/or replication, in a size dependent manner, in the human fetal Thymus/Liver implants of severe combined immunodeficient mouse (SCID-hu) model. When the murine heat stable antigen (HSA) of 283 bp was substituted into HIV-1 nef region, the viral loads in vivo were comparable to the negative control nef attenuated HIV-1, and the reporter HSA gene was not deleted upon infection. However, the murine Thy1.2 gene (505 bp) substituted into the nef attenuated HIV-1, upon infection and replication, deleted 441 bp in vitro and 437 bp in vivo, of the inserted Thy1.2 gene. When the enhanced green fluorescence protein (eGFP) gene (720 bp) was substituted for nef, virus replication was aborted in vivo in the Thy/Liv implants, as seen by the background levels of viral loads, comparable to mock infected implants, and the eGFP gene was deleted. When the herpes simplex virus thymidine kinase gene, HSV-TK (1.15 kbp), or HSA gene, was substituted into the viral vpr gene, TK but not HSA gene was deleted, upon infection in vitro. Moreover, NL-TKI reporter virus with both intact nef and vpr genes shows deletion of TK gene both in vitro and in vivo. Excision of foreign genes occurred within the exogenous segments but not in the viral own regions. These results suggest that larger "suicide" genes introduced via HIV-1 can be deleted upon infection. However, smaller size nucleotide sequences or genes (approximately 300 bp) inserted in place of viral nef or vpr gene may be used to target the virus or its components, for attack and elimination in vivo, and thus have implications for the development of live attenuated HIV vaccines.
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PMID:Rapid size dependent deletion of foreign gene sequences inserted into attenuated HIV-1 upon infection in vivo: implications for vaccine development. 1625 Aug 84