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A reverse transcriptase (RT) is an enzyme used to convert RNA genome to DNA, a process termed reverse transcription.Reverse transcriptases are used by viruses such as HIV and hepatitis B to replicate their genomes, by retrotransposon mobile genetic elements to proliferate within the host genome, and by eukaryotic cells to extend the telomeres at the ends of their linear chromosomes.
HIV-1 RT does not have proof-reading activity. This, combined with selective pressure from the drug, leads to mutations in reverse transcriptase that make the virus less susceptible to NRTIs and NNRTIs. Aspartate residues 110, 185, and 186 in the reverse transcriptase polymerase domain are important in the binding and incorporation of nucleotides.
Nucleoside reverse-transcriptase inhibitors (NRTI) and nucleotide reverse-transcriptase inhibitors (NtRTI) are nucleoside and nucleotide analogues which inhibit reverse transcription. HIV is an RNA virus, so it can not be integrated into the DNA in the nucleus of the human cell unless it is first "reverse" transcribed into DNA.
In 1985, HIV was identified as the causative agent of acquired immune deficiency syndrome (AIDS) and its complete genome was immediately available. This knowledge paved the way for the development of selective inhibitors. [6] HIV-2 carries a slightly lower risk of transmission than HIV-1 and infection tends to progress more slowly to AIDS. [7]
The reverse transcriptase of HIV-1 has been the main foundation for the development of anti-HIV drugs. [5] The first nucleoside reverse-transcriptase inhibitor with in vitro anti-HIV activity was zidovudine. [6] Since zidovudine was approved in 1987, six nucleosides and one nucleotide reverse-transcriptase inhibitor (NRTI) have been approved by ...
Reverse transcriptase (RT) is an enzyme that controls the replication of the genetic material of HIV and other retroviruses. [1] The enzyme has two enzymatic functions. Firstly it acts as a polymerase where it transcribes the single-stranded RNA genome into single-stranded DNA and subsequently builds a complementary strand o
This complex consists of linear HIV DNA, viral proteins, and host proteins. The viral proteins include integrase, nucleocapsid, matrix, viral protein R (Vpr), and reverse transcriptase. Several host proteins can also form part of this complex, although it is unclear whether some or all join the preintegration complex prior to nuclear transport.
This process involves both viral and cellular proteins which reverse transcribe the viral RNA to double-stranded DNA, and incorporate the viral DNA into the host cell genome. [3] The capsid surrounding the viral RNA, nucleocapsids, reverse transcriptase, and integrase plays a key role in the infection process. The capsid is composed of amino ...