DNA strand which is the DNA synthesized by a single-stranded model
                           of RNA.
                             4. Viral  DNA is transported through the nucleus, where the HIV
                           integrase protein integrates HIV viral DNA into the host’s DNA. Then
                           the normal host transcription mechanism transcribes HIV viral DNA
                           into multiple copies of the new HIV RNA.
                             5. Part of this RNA becomes the genome of a new virus, while the
                           cell uses other copies of the RNA to produce new HIV proteins.
                             6. The new viral RNA and HIV proteins move to the surface of the
                           cell, where a new immature HIV is formed. The capsid surrounds the
                           genome of the new viral RNA
                             7. Finally, the virus is released from the cell, and the HIV protein
                           called  protease  breaks  down  the  newly  synthesized  polyproteins  to
                           create a mature infectious virus.
                             At this point, the new viruses escape from the host cell. In addition,
                           covalent bonds are formed (a chemical bond involving the sharing of
                           electron pairs between atoms) between viral and host DNA that produce
                           a  permanent  alteration.  This  alteration  is  defined  by  the  scientific
                           literature as ‘a point of no return’ for the host cell. In fact, this forms a
                           provirus that is a permanent transporter of the virus.
                             Among  retroviruses,  lentiviruses  possess  the  unique  ability  to
                           replicate  effectively  in  nondividing  cells  (and  can  enter  cells
                           undergoing cellular mitosis). This mechanism at work in HIV-1 is the
                           PIC (pre-integration complex).
                             PIC  is  a  nucleoprotein  complex  (of  viral  genetic  material  and
                           associated viral and host proteins), that is capable of inserting a viral
                           genome  into  a  host  genome.  The  PIC  is  formed  after  the  Reverse
                           Transcription Complex has reverse transcribed/copied the viral RNA
                           (e.g.  SARS-CoV-2  lentivirus  mRNA)  into  the  DNA  referred  to  as
                           complementary DNA (cDNA). The PIC manages to cross the double
                           nuclear membrane of the host cells and enters the nucleus of the cell
                           through the NPC (Nuclear Pore Complex).  109


                             109   Naffakh  Nadia,  Molecular  mechanism  of  transcription  by  influenza  virus
                           polymerase. Url. https://research.pasteur.fr/en/project/nuclear-import-and-assembly-
                           of-the-viral-rna-polymerase-subunits/



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