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- Defining Retroviruses
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1. An introduction to retroviruses: replication strategy and genetics
- Dr. Jonathan Stoye
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2. Bovine leukemia virus
- Prof. Arsene Burny
- Dr. Lucas Willems
- The First Human Retroviruses
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3. The discovery of human retroviruses and how they cause disease
- Prof. Robert Gallo
- HIV - Peculiarities of its Genome
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4. HIV: peculiarities of its genome
- Dr. George Pavlakis
- HIV Transmission, Epidemiology and Public Health/Prevention Issues
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5. HIV/AIDS epidemiology, transmission, and risk factors
- Prof. William Blattner
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6. HIV prevention and public health issues: a global perspective
- Prof. Sten H. Vermund
- How HIV causes AIDS
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7. How HIV causes disease 1: identification and characterization of HIV
- Prof. Bruce Walker
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8. How HIV causes disease 2: immune responses to HIV infection
- Prof. Bruce Walker
- HIV Therapy - Now and the Future
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9. HIV therapy: taking advantage of progress
- Prof. Paul Volberding
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10. HIV cure: harnessing innate and adaptive strategies
- Prof. Luis Montaner
- Archived Lectures *These may not cover the latest advances in the field
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11. The first human retroviruses: the human T lymphotropic viruses (HTLVs)
- Prof. William Hall
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12. HIV preventive vaccines
- Prof. Andrew McMichael
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13. HIV/AIDS in the developing world: what can we do?
- Dr. Joseph O'Neill
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15. Antiretroviral therapy 2007, new concepts and lessons learned
- Prof. Robert Redfield
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16. What to do in therapy in the face of HIV drug resistance?
- Prof. Mark Wainberg
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17. Viral reservoirs, latency and mechanisms of HIV persistence
- Prof. Robert Siliciano
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18. HIV preintegration complexes
- Prof. Lee Ratner
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19. The discovery of ATL field expansion in 40 yrs
- Prof. Junji Yodoi
Printable Handouts
Navigable Slide Index
- Introduction
- Some milestones of Retrovirus research
- Suggested reading
- Unique enzymatic activities of Retroviruses
- Schematic view of retroviral particle
- Retroviral RNA
- Viral genome: RNA vs. DNA form
- The retroviral life cycle
- Receptor binding and membrane fusion
- HIV cell binding and membrane fusion
- Entry and partial uncoating
- Possible role of viral capsid remnants
- Reverse transcription
- Mechanism of reverse transcription
- Variation in Retroviruses
- Nuclear entry
- Nuclear entry strategies
- Integration into host chromosome
- Mechanism of the integration reaction
- RNA transcription
- Viral RNA synthesis
- Splicing export
- RNA processing and export
- Translation of viral mRNA
- Translation products of a simple Retrovirus
- Pol translation
- Env translation
- Retrovirus assembly and maturation
- Maturation of HIV-2
- Electron micrographs of mature retroviral particles
- Phylogenetic relationships between Retroviruses
- Taxonomy of the Retroviridae
- Comparison of simple and complex genomes
- RNA splicing in simple and complex Retroviruses
- HIV-1 accessory genes
- Some "natural" inhibitors of Retrovirus replication
- Endogenous retroviruses (ERVs)
- PCR detection of a specific provirus
- HERV-H integration during primate evolution
- Origin of gibbon ape leukemia virus
- Pathologic consequences of retroviral infection
- Cancer-causing viruses
- Activation of cellular oncogenes
- Some acute transforming viruses
- Models for oncogene transduction
- Retroviral vectors
Topics Covered
- Retroviruses
- Life cycle
- Classification
- Simple and complex retroviruses
- Endogenous retroviruses
- Retroviruses and cancer
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
Stoye, J. (2017, March 8). An introduction to retroviruses: replication strategy and genetics [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/UKYP9589.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. Jonathan Stoye has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
An introduction to retroviruses: replication strategy and genetics
A selection of talks on Microbiology
Transcript
Please wait while the transcript is being prepared...
0:00
An introduction to Retroviruses: Replication Strategy and Genetics by Jonathan Stoye,
Medical Research Council, National Institute for Medical Research London UK.
It is now almost exactly 100 years since the first descriptions of the association
between the group of viruses we now call
retroviruses and the experimental induction of cancer in chickens.
These initial observations by Ellerman and Bang and by
Peyton Rous have prompted a century long search into how these viruses cause disease.
0:37
During this time has come the discovery of
a key retroviral enzyme, reverse transcriptase,
with its profound effects both on the understanding and practice of molecular biology.
The identification of oncogene and
associated insights into the processes of normal and the aplastic cellular proliferation.
The development of a technology, retroviral vectors,
that promises to provide a novel means of
therapy for both inherited and acquired diseases,
as well as the emergence of a novel virus within the human population.
The virus we now call HIV,
which is responsible for the AIDS epidemic.
The understanding of retroviral replication was vital to these advances.
My purpose today is to provide an introduction to
the retroviral lifecycle and how this process can affect the infected cell or organism.
Many workers have contributed to the field and I
will not in general credit advances to specific individuals.