When DNA viruses enter cells, the first biosynthetic step that takes place is synthesis of mRNAs for translation into protein. In this lecture, we discuss the enzymes that carry out this reaction, regulation of the process by viral proteins, positive feedback loops and transcriptional cascades, and RNA processing, the addition of 5'-cap, poly(A) tail, splicing, and RNA export.
In this course, Prof. Vincent Racaniello gives 26 video lectures on Virology. The basic thesis of the course is that all viruses adopt a common strategy. The strategy is simple:
1. Viral genomes are contained in metastable particles. 2. Genomes encode gene products that promote an infectious cycle (mechanisms for genomes to enter cells, replicate, and exit in particles). 3. Infection patterns range from benign to lethal; infections can overcome or co-exist with host defenses.
Despite the apparent simplicity, the tactics evolved by particular virus families to survive and prosper are remarkable. This rich set of solutions to common problems in host/parasite interactions provides significant insight and powerful research tools. Virology has enabled a more detailed understanding of the structure and function of molecules, cells and organisms and has provided fundamental understanding of disease and virus evolution.
The course will emphasize the common reactions that must be completed by all viruses for successful reproduction within a host cell and survival and spread within a host population. The molecular basis of alternative reproductive cycles, the interactions of viruses with host organisms, and how these lead to disease are presented with examples drawn from a set of representative animal and human viruses, although selected bacterial viruses will be discussed.