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Kutub Ashraf
Kutub Ashraf

FIV research

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Presentation on FIV Review articles Feline Immunodeficiency Virus (FIV) as A Model for Study of Lentivirus Infections and Vaccination: Parallels with HIV Presented By: Kutub Ashraf ,M1 Student PAVAL Lab ,UJF, France 25/9/2015
FIV in Short……… • FIV is a significant pathogen in the cat in addition, it is the smallest available natural model for the study of lentivirus infections. • Although divergent at the amino acid level, the cat lentivirus has an abundance of structural and pathophysiological commonalities with HIV . • Due to marked similarity in genomic organization, virus structure, virus replication and disease pathogenesis of FIV and HIV, infection of cats with FIV is a useful tool to study and develop novel drugs and vaccines for HIV. Interstingly, FIV has about 51% nucleic-acid(nc) identity and 29% amino-acid (aa) identity to HIV-1 at the viral structural and enzymatic proteins
Pathogenesis of FIV • The virus infects lymphocytes in which it establishes a persistent infection. An immune response develops that includes both cell-mediated and humoral immunity, which keeps the virus under control for long periods of time. • Once infected, cats do not recover from FIV infection because the virus lies dormant within certain cells where it is hidden from the immune response. Many FIV-infected cats live healthy lives but some develop immunodeficiency and eventually die of a variety of clinical syndromes. • However, in contrast to the primate lentiviruses, FIV does not use CD4 as a primary receptor and displays broader cellular tropism in vivo, infecting a large number of B and CD8+ T cells, as well as CD4+ T cells and macrophages
The main problems of vaccination A vaccine has to be very powerful in order to prevent the infecting FIV from invading cells and establishing a persistent infection FIV occurs in 5 subtypes. If these subtypes are also different antigenic types, a vaccine would have to protect against the predominant subtype in a particular geographic area.
• Does the existing vaccine protect cats from field virus? Simply no, Although the vaccine has been shown to protect against laboratory strains of virus initially but it is not clear if it protects against FIV strains that are present in the field, which may be of higher virulence. • The vaccine interferes with diagnosis. Vaccinated cats have antibodies to FIV which are detected in the common diagnostic tests. Therefore, it is impossible to distinguish vaccinated and infected cats in this way.
The future: can more effective vaccines be produced? • This is not yet clear. A great deal of research is being done by research laboratories and other pharmaceutical companies to produce FIV vaccines. • The primary aim is to develop a vaccine that induces both strong cell- mediated and humoral immunity in order to prevent the establishment of a persistent infection, which, as for HIV, is difficult to achieve. • If elimination of the virus cannot be achieved, a vaccine that reduced the virus load in a subsequently infected cat might still be very useful because it might reduce the risk of further transmission of the virus, and the development of disease in the infected cat. • In future it will be important to carry out FIV vaccine trials to try to protect against natural infection.
Fig : Disease course of FIV and HIV infections. FIV and HIV infections are characterised by a progressive decline in the CD4+ T cell subset and by vigorous humoral and cellular immune responses that can contain viral replication and viremia during the asymptomatic phase but become exhausted in later stages of infection
THE SUCCESSES AND FAILURES TOWARD COMMERCIAL FIV VACCINE • Massive efforts to develop a prophylactic FIV vaccine began in 1989 after the confirmation of FIV pathogenesis in laboratory cats. In 1990–1998, the first FIV vaccine approaches to be tested were the inactivated whole-virus (IWV) and inactivated infected whole-cell (IWC • But not all FIV strains can serve as vaccine immunogens against homologous challenges, and even more against heterologous (i.e.,different from vaccine strain) challenges. • The efforts to enhance IWC/IWV vaccine immunity consisted of combining FIV immunogens from multiple subtypes and the use of new adjuvant formulations
Limitations of some current vaccines types So, if inactivated and live attenuated FIV vaccines afford protection, how did they do so?? As regards live attenuated vaccines, resistance to superinfection is likely to depend not only on antiviral immunity, but also on viral interference • Moreover, inactivated vaccines are often presumed to be unsuitable for vaccination against incurable diseases such as AIDS
Dual Subtype Fel-O-Vax FIV vaccine • Perhaps the very nature of the Fel-O-Vax FIV vaccine—based on based on inactivated whole virus—is in part to blame • Perhaps the efficacy of the new FIV vaccine has not been sufficiently well established. Indeed, the vaccine has not afforded protection in laboratory trials against a highly virulent FIV strain, which may or may not be typical of naturally encountered viruses.
• In 2014, Janet K. Yamamoto defined an FIV tier system using two related FIV dual-subtype (A+D) vaccines: the commercially available inactivated infected-cell vaccine (Fel-O-Vax® FIV) and its prototype vaccine solely composed of inactivated whole viruses. • Surprisingly, they claimed that Both vaccines afforded combined protection rates of 100% against subtype-A tier-1 FIVPet, 89% against subtype-B tier-3 FIVFC1, 61% against recombinant subtype-A/B tier-2 FIVBang, 62% against recombinant subtype-F′/C tier-3 FIVNZ1, and 40% against subtype-A tier-2 FIVUK8 in short-duration (37–41 weeks) studies. • But In long-duration (76–80 weeks) studies, the commercial vaccine afforded a combined protection rate of at least 46% against the tier-2 and tier-3 viruses
Surprisingly………. • The dual-subtype FIV vaccines conferred a statistically significant cross- subtype protection rate of 89% against a subtype-B virus, which was better than those against recombinant subtype-A/B and -F′/C viruses. • Other FIV researchers have also described the efficacy of the Fel-O-Vax® FIV vaccine, which ranged from high efficacies against the subtype-B Japanese FIVAO2 , subtype-A FIVFD/US , and subtype-A FIVFD/DutchA viruses, to no sterilizing efficacy against the subtype-A FIVUK8 virus . • But, Based also on the work of Dunham et al. the prototype IWV with the IL-12 supplement was generally more effective against heterologous isolates than the Fel-O-Vax® FIV. Collectively, these studies suggest the prototype IWV is better than Fel-O-Vax® FIV. This may be due to the fact that the prototype IWV consists of only inactivated whole virus, while Fel- O-Vax® FIV consists of inactivated infected cells
Moreover, The prototype (dual-subtype IWVs) and Fel-O-Vax® FIV (dual-subtype IWVs plus infected cells) vaccines conferred protection against non-vaccine subtype-B viruses. However, little is known about the duration, magnitude, and mechanism(s) of the vaccine protection against other subtype and recombinant viruses
Efficacy criteria for FIV vaccine • the large genetic diversity of FIV may make it more difficult to derive a single universal vaccine against the circulating • FIV subtypes and recombinants. Furthermore, the ability of FIV to be more polytropic in immune cells than HIV is another problem in the development of the vaccine • However, there are key advantages in the development of a FIV vaccine over an HIV-1 vaccine. • Another advantage of FIV vaccine development is the natural FIV transmission mode (via biting), which may be an easier route to protect than the mucosal transmission route
Development of Inhibitors of FIV PR • 1.The aspartic protease. PR, is responsible for viral Gag and Gag-Pol polyprotein processing into individual structural and enzymatic proteins during assembly and maturation. • Therefore, PR has been a very important target for antiviral therapies • Several approved protease inhibitors are available that are effective for treating HIV-1infection and combination drug therapies HAART • Hence John Elder et al. We have prepared a series of mutant FIVPRs in which HIV- 1 amino acid residues have been substituted into the FIV PR background at equivalent positions. Confirmation of the involvement of several of these residues in both substrate and inhibitor specificities has been obtained. • Structural and biochemical analyses have been performed by that group on FIV PR to define distinctions with HIV PR to aid in understanding of the basis for processing
FIV protease • like HIV-1 protease, It is is a homodimeric aspartic proteinase and the two enzymes • are very similar at the crystallographic level, particularly within the substrate binding pocket • Moreover, Nucleoside analogs that interact with theactive site of reverse transcriptase have been found efficacious against both FIV and HIV . • It is likely that a similar strategy will evolve for development of anti- integrase drugs.
Problem of Antiretroviral Drugs ? • Although HIV infection has not been eliminated with antiviral therapy, at such low levels of viral replication, mutations in the viral genome as greatly slowed and escape from immune recognition and drug inhibition is limited. • But, Anti-retroviral therapy is not widely used in FIV-infected cats, and compounds are rarely designed for molecular interaction with FIV proteins
• The sera from commercial dual-subtype-vaccinated cats had much higher VNA titers to homologous vaccine strains (FIVPet and FIVShi) than to either heterologous-subtype-B strains or homologous-subtype- • A FIVGL8 (Fig. ) In contrast, sera from prototype dual-subtype-vaccinated cats had high VNA titers to vaccine strain FIVPet, but had little-to-no VNA titers to vaccine strain FIVShi
Why DNA vaccines against FIV • DNA Vaccination Affords Significant Protection against Feline Immunodeficiency Virus Infection without Inducing Detectable Antiviral Antibodies • Immunogenicity of a lentiviral-based DNA vaccine driven by the 5′LTR of the naturally attenuated caprine arthritis encephalitis virus (CAEV) in mice and macaques • Ref:
Planning to develop DNA vaccine against FIV • Two Key Attempts……. 1.Deletion of Integrase The method consists in the deletion of the gene • the integrase to prevent the integration of the provirus genome. • To do this, the amplification of parts upstream genes (End of RT) and downstream (Beginning of Vif) integrase was performed. • Moreover, this RNA virus integrates into the genome of its host through the integrase gene. Without integration into the genome, there is no replication. The creation of a DNA vector lentiviral was initiated during the course. Indeed, the first strategy for vaccine consists in the deletion of the integrase thereby preventing integration of the proviral DNA into the host genome. The small amount of viral genome can be produced and package deletion of integrase possible to avoid having a persistence of the virus in tissues.
Interestingly, the use of CAEV LTR introduces a novel level of safety One research group examined whether a chimeric HIV DNA vaccine (CAL-Δ4- SHIVKU2) whose genome was driven by the LTR of the goat lentivirus, caprine arthritis encephalitis (CAEV) and expressed efficiently the vaccine antigens and induces potent immune responses in animal models for HIV vaccine. So they removed the SIV 5'LTR from the construct and replaced it with the LTR from lentivirus, CAEV that did not induce AIDS in his host. That LTR was previously characterized to be Tat-independent therefore to have a constitutive promoter for gene expression . That novel HIV vaccine was named CAL-Δ4- SHIVKU2. Moreover, the parental vaccine genome Δ4SHIVKU2, the new non-integrating, non- replicating vaccine CAL-Δ4-SHIVKU2 expressed efficiently all the antigens encoded by the vaccine genome in transfected HEK-293T cells.
2.Switching the FIV LTRs with the LTRs of CAEV The second part is the replacement of LTRs of IVF sequence by those virus caprine arthritis encephalitis (CAEV). These regions contain information on the start and on the transcription termination. The LTRs CAEV being active promoters constitutively, it helps to have the transcript directly without latency. Reference:
• Furthermore it has been demonstrated by other group that the recombinant IN protein of CAEV did not allow in vitro integration of HIV LTR DNA . • From that point of view they hypothesized that a SHIV genome, in which the SIV LTRs are replaced with those of CAEV, and used as DNA vaccine, will generate an integration-deficient viral genome but will retain the capacities to undergo one cycle of replication during which viral proteins will be expressed from the episomal unintegrated DNA without its disadvantages namely integration and persistence associated with the potential of reversion to a pathogenic phenotype.
• Cellular culture :CRFK cells (Crandell Feline Kidney) were used during the course • Trypsinization: to detach the cells to adhereback to the surface by occupying maximum space to develop Molecular Experiments 1.Isolation of fragments "End of RT" and "Begining of Vif" parts of upstream and downstream genes 2.PCR amplification: Fragments "End of RT" and "Begining of Vif" were amplified by High fidelity PCR of Taq with a gradient program
• Bacterial Transformation using E.coli JM109 competent bacteria Purification of DNA: In order to extract the DNAs present in the gels Ligation of the fragment "End of RT and Beg of Vif in plasmid genome of FIV 34 to obtain a plasmid delta IVF integrase
Molecular Cloning strategies for 2nd step • 1. PCR • Vector restriction digest • Gel purification • Insert restriction digest • Ligation • Transformation and plating • Plasmid miniprep • Depositing clones in a library
Concluding remarks • So…. FIV AIDS model is gaining in momentum and offers unsurpassed advantages as compared to non-human primate models to devise novel strategies to vaccinate against lentiviruses using a statistically meaningful number of animals and with the potential to validate the approach in the field. Moreover, The model is very suitable for testing prophylactic and therapeutic approaches, though experimental work with cats is ethically challenging and costly, but to a much lesser extent than use of primates.

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Fiv

  • 1. Presentation on FIV Review articles Feline Immunodeficiency Virus (FIV) as A Model for Study of Lentivirus Infections and Vaccination: Parallels with HIV Presented By: Kutub Ashraf ,M1 Student PAVAL Lab ,UJF, France 25/9/2015
  • 2. FIV in Short……… • FIV is a significant pathogen in the cat in addition, it is the smallest available natural model for the study of lentivirus infections. • Although divergent at the amino acid level, the cat lentivirus has an abundance of structural and pathophysiological commonalities with HIV . • Due to marked similarity in genomic organization, virus structure, virus replication and disease pathogenesis of FIV and HIV, infection of cats with FIV is a useful tool to study and develop novel drugs and vaccines for HIV. Interstingly, FIV has about 51% nucleic-acid(nc) identity and 29% amino-acid (aa) identity to HIV-1 at the viral structural and enzymatic proteins
  • 3. Pathogenesis of FIV • The virus infects lymphocytes in which it establishes a persistent infection. An immune response develops that includes both cell-mediated and humoral immunity, which keeps the virus under control for long periods of time. • Once infected, cats do not recover from FIV infection because the virus lies dormant within certain cells where it is hidden from the immune response. Many FIV-infected cats live healthy lives but some develop immunodeficiency and eventually die of a variety of clinical syndromes. • However, in contrast to the primate lentiviruses, FIV does not use CD4 as a primary receptor and displays broader cellular tropism in vivo, infecting a large number of B and CD8+ T cells, as well as CD4+ T cells and macrophages
  • 4.
  • 5. The main problems of vaccination A vaccine has to be very powerful in order to prevent the infecting FIV from invading cells and establishing a persistent infection FIV occurs in 5 subtypes. If these subtypes are also different antigenic types, a vaccine would have to protect against the predominant subtype in a particular geographic area.
  • 6. • Does the existing vaccine protect cats from field virus? Simply no, Although the vaccine has been shown to protect against laboratory strains of virus initially but it is not clear if it protects against FIV strains that are present in the field, which may be of higher virulence. • The vaccine interferes with diagnosis. Vaccinated cats have antibodies to FIV which are detected in the common diagnostic tests. Therefore, it is impossible to distinguish vaccinated and infected cats in this way.
  • 7. The future: can more effective vaccines be produced? • This is not yet clear. A great deal of research is being done by research laboratories and other pharmaceutical companies to produce FIV vaccines. • The primary aim is to develop a vaccine that induces both strong cell- mediated and humoral immunity in order to prevent the establishment of a persistent infection, which, as for HIV, is difficult to achieve. • If elimination of the virus cannot be achieved, a vaccine that reduced the virus load in a subsequently infected cat might still be very useful because it might reduce the risk of further transmission of the virus, and the development of disease in the infected cat. • In future it will be important to carry out FIV vaccine trials to try to protect against natural infection.
  • 8. Fig : Disease course of FIV and HIV infections. FIV and HIV infections are characterised by a progressive decline in the CD4+ T cell subset and by vigorous humoral and cellular immune responses that can contain viral replication and viremia during the asymptomatic phase but become exhausted in later stages of infection
  • 9. THE SUCCESSES AND FAILURES TOWARD COMMERCIAL FIV VACCINE • Massive efforts to develop a prophylactic FIV vaccine began in 1989 after the confirmation of FIV pathogenesis in laboratory cats. In 1990–1998, the first FIV vaccine approaches to be tested were the inactivated whole-virus (IWV) and inactivated infected whole-cell (IWC • But not all FIV strains can serve as vaccine immunogens against homologous challenges, and even more against heterologous (i.e.,different from vaccine strain) challenges. • The efforts to enhance IWC/IWV vaccine immunity consisted of combining FIV immunogens from multiple subtypes and the use of new adjuvant formulations
  • 10. Limitations of some current vaccines types So, if inactivated and live attenuated FIV vaccines afford protection, how did they do so?? As regards live attenuated vaccines, resistance to superinfection is likely to depend not only on antiviral immunity, but also on viral interference • Moreover, inactivated vaccines are often presumed to be unsuitable for vaccination against incurable diseases such as AIDS
  • 11. Dual Subtype Fel-O-Vax FIV vaccine • Perhaps the very nature of the Fel-O-Vax FIV vaccine—based on based on inactivated whole virus—is in part to blame • Perhaps the efficacy of the new FIV vaccine has not been sufficiently well established. Indeed, the vaccine has not afforded protection in laboratory trials against a highly virulent FIV strain, which may or may not be typical of naturally encountered viruses.
  • 12. • In 2014, Janet K. Yamamoto defined an FIV tier system using two related FIV dual-subtype (A+D) vaccines: the commercially available inactivated infected-cell vaccine (Fel-O-Vax® FIV) and its prototype vaccine solely composed of inactivated whole viruses. • Surprisingly, they claimed that Both vaccines afforded combined protection rates of 100% against subtype-A tier-1 FIVPet, 89% against subtype-B tier-3 FIVFC1, 61% against recombinant subtype-A/B tier-2 FIVBang, 62% against recombinant subtype-F′/C tier-3 FIVNZ1, and 40% against subtype-A tier-2 FIVUK8 in short-duration (37–41 weeks) studies. • But In long-duration (76–80 weeks) studies, the commercial vaccine afforded a combined protection rate of at least 46% against the tier-2 and tier-3 viruses
  • 13. Surprisingly………. • The dual-subtype FIV vaccines conferred a statistically significant cross- subtype protection rate of 89% against a subtype-B virus, which was better than those against recombinant subtype-A/B and -F′/C viruses. • Other FIV researchers have also described the efficacy of the Fel-O-Vax® FIV vaccine, which ranged from high efficacies against the subtype-B Japanese FIVAO2 , subtype-A FIVFD/US , and subtype-A FIVFD/DutchA viruses, to no sterilizing efficacy against the subtype-A FIVUK8 virus . • But, Based also on the work of Dunham et al. the prototype IWV with the IL-12 supplement was generally more effective against heterologous isolates than the Fel-O-Vax® FIV. Collectively, these studies suggest the prototype IWV is better than Fel-O-Vax® FIV. This may be due to the fact that the prototype IWV consists of only inactivated whole virus, while Fel- O-Vax® FIV consists of inactivated infected cells
  • 14. Moreover, The prototype (dual-subtype IWVs) and Fel-O-Vax® FIV (dual-subtype IWVs plus infected cells) vaccines conferred protection against non-vaccine subtype-B viruses. However, little is known about the duration, magnitude, and mechanism(s) of the vaccine protection against other subtype and recombinant viruses
  • 15. Efficacy criteria for FIV vaccine • the large genetic diversity of FIV may make it more difficult to derive a single universal vaccine against the circulating • FIV subtypes and recombinants. Furthermore, the ability of FIV to be more polytropic in immune cells than HIV is another problem in the development of the vaccine • However, there are key advantages in the development of a FIV vaccine over an HIV-1 vaccine. • Another advantage of FIV vaccine development is the natural FIV transmission mode (via biting), which may be an easier route to protect than the mucosal transmission route
  • 16. Development of Inhibitors of FIV PR • 1.The aspartic protease. PR, is responsible for viral Gag and Gag-Pol polyprotein processing into individual structural and enzymatic proteins during assembly and maturation. • Therefore, PR has been a very important target for antiviral therapies • Several approved protease inhibitors are available that are effective for treating HIV-1infection and combination drug therapies HAART • Hence John Elder et al. We have prepared a series of mutant FIVPRs in which HIV- 1 amino acid residues have been substituted into the FIV PR background at equivalent positions. Confirmation of the involvement of several of these residues in both substrate and inhibitor specificities has been obtained. • Structural and biochemical analyses have been performed by that group on FIV PR to define distinctions with HIV PR to aid in understanding of the basis for processing
  • 17. FIV protease • like HIV-1 protease, It is is a homodimeric aspartic proteinase and the two enzymes • are very similar at the crystallographic level, particularly within the substrate binding pocket • Moreover, Nucleoside analogs that interact with theactive site of reverse transcriptase have been found efficacious against both FIV and HIV . • It is likely that a similar strategy will evolve for development of anti- integrase drugs.
  • 18. Problem of Antiretroviral Drugs ? • Although HIV infection has not been eliminated with antiviral therapy, at such low levels of viral replication, mutations in the viral genome as greatly slowed and escape from immune recognition and drug inhibition is limited. • But, Anti-retroviral therapy is not widely used in FIV-infected cats, and compounds are rarely designed for molecular interaction with FIV proteins
  • 19. • The sera from commercial dual-subtype-vaccinated cats had much higher VNA titers to homologous vaccine strains (FIVPet and FIVShi) than to either heterologous-subtype-B strains or homologous-subtype- • A FIVGL8 (Fig. ) In contrast, sera from prototype dual-subtype-vaccinated cats had high VNA titers to vaccine strain FIVPet, but had little-to-no VNA titers to vaccine strain FIVShi
  • 20. Why DNA vaccines against FIV • DNA Vaccination Affords Significant Protection against Feline Immunodeficiency Virus Infection without Inducing Detectable Antiviral Antibodies • Immunogenicity of a lentiviral-based DNA vaccine driven by the 5′LTR of the naturally attenuated caprine arthritis encephalitis virus (CAEV) in mice and macaques • Ref:
  • 21. Planning to develop DNA vaccine against FIV • Two Key Attempts……. 1.Deletion of Integrase The method consists in the deletion of the gene • the integrase to prevent the integration of the provirus genome. • To do this, the amplification of parts upstream genes (End of RT) and downstream (Beginning of Vif) integrase was performed. • Moreover, this RNA virus integrates into the genome of its host through the integrase gene. Without integration into the genome, there is no replication. The creation of a DNA vector lentiviral was initiated during the course. Indeed, the first strategy for vaccine consists in the deletion of the integrase thereby preventing integration of the proviral DNA into the host genome. The small amount of viral genome can be produced and package deletion of integrase possible to avoid having a persistence of the virus in tissues.
  • 22. Interestingly, the use of CAEV LTR introduces a novel level of safety One research group examined whether a chimeric HIV DNA vaccine (CAL-Δ4- SHIVKU2) whose genome was driven by the LTR of the goat lentivirus, caprine arthritis encephalitis (CAEV) and expressed efficiently the vaccine antigens and induces potent immune responses in animal models for HIV vaccine. So they removed the SIV 5'LTR from the construct and replaced it with the LTR from lentivirus, CAEV that did not induce AIDS in his host. That LTR was previously characterized to be Tat-independent therefore to have a constitutive promoter for gene expression . That novel HIV vaccine was named CAL-Δ4- SHIVKU2. Moreover, the parental vaccine genome Δ4SHIVKU2, the new non-integrating, non- replicating vaccine CAL-Δ4-SHIVKU2 expressed efficiently all the antigens encoded by the vaccine genome in transfected HEK-293T cells.
  • 23. 2.Switching the FIV LTRs with the LTRs of CAEV The second part is the replacement of LTRs of IVF sequence by those virus caprine arthritis encephalitis (CAEV). These regions contain information on the start and on the transcription termination. The LTRs CAEV being active promoters constitutively, it helps to have the transcript directly without latency. Reference:
  • 24. • Furthermore it has been demonstrated by other group that the recombinant IN protein of CAEV did not allow in vitro integration of HIV LTR DNA . • From that point of view they hypothesized that a SHIV genome, in which the SIV LTRs are replaced with those of CAEV, and used as DNA vaccine, will generate an integration-deficient viral genome but will retain the capacities to undergo one cycle of replication during which viral proteins will be expressed from the episomal unintegrated DNA without its disadvantages namely integration and persistence associated with the potential of reversion to a pathogenic phenotype.
  • 25. • Cellular culture :CRFK cells (Crandell Feline Kidney) were used during the course • Trypsinization: to detach the cells to adhereback to the surface by occupying maximum space to develop Molecular Experiments 1.Isolation of fragments "End of RT" and "Begining of Vif" parts of upstream and downstream genes 2.PCR amplification: Fragments "End of RT" and "Begining of Vif" were amplified by High fidelity PCR of Taq with a gradient program
  • 26. • Bacterial Transformation using E.coli JM109 competent bacteria Purification of DNA: In order to extract the DNAs present in the gels Ligation of the fragment "End of RT and Beg of Vif in plasmid genome of FIV 34 to obtain a plasmid delta IVF integrase
  • 27. Molecular Cloning strategies for 2nd step • 1. PCR • Vector restriction digest • Gel purification • Insert restriction digest • Ligation • Transformation and plating • Plasmid miniprep • Depositing clones in a library
  • 28. Concluding remarks • So…. FIV AIDS model is gaining in momentum and offers unsurpassed advantages as compared to non-human primate models to devise novel strategies to vaccinate against lentiviruses using a statistically meaningful number of animals and with the potential to validate the approach in the field. Moreover, The model is very suitable for testing prophylactic and therapeutic approaches, though experimental work with cats is ethically challenging and costly, but to a much lesser extent than use of primates.