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Protein Shell DNA or RNA Membrane around virus Proteins that help virus get into proper host Slide 2 Attachment The virus attaches to receptors on the host cell. Slide 3 The virus is able to get into the cell in one of three ways. Entry into the Cell Slide 4 Fusion of the Membranes The viral envelope and cell membrane fuse, allowing the virus to enter the cell. Slide 5 The virus is engulfed by the cell membrane. Endocytosis Slide 6 Injection E. coli Bacteriophage T4 Slide 7 What happens once the genetic material is inside the cell? One of two different processes may occur: 1.The virus takes over the cell and begins to replicate right away, killing the host cell in the process. 2.The virus doesnt take over or kill the host cell right away, but does begin to replicate. Slide 8 Lytic Cycle There are 5 steps in the Lytic Cycle RELEASE (LYSIS) ATTACHMENT Slide 9 Lytic Cycle 1.Attachment the virus attaches to receptors on the host ATTACHMENT Slide 10 Lytic Cycle 2.Penetration the nucleic acid moves across the cell membrane into the host cell Slide 11 Lytic Cycle 3.Replication and Synthesis the virus degrades the host nucleic acid and uses the host to make new viral components. Slide 12 Lytic Cycle 4.Assembly viral components are assembled into new viruses. Slide 13 Lytic Cycle RELEASE / LYSIS 5.Release / Lysis fully assembled viruses are released when the host cell bursts Slide 14 Lytic Cycle Viruses that are in a lytic cycle are described as VIRULENT RELEASE / LYSIS ATTACHMENT Slide 15 T4 Bacteriophage Lysing E. coli Bacterium Slide 16 Bacteriophage Lambda () Slide 17 Lysogenic Cycle There are 4 steps in the Lysogenic Cycle NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNN nnn nnn nnn nnn nnn nnd ddd ATTACHMENT PENETRATION INTEGRATION REPLICATION Slide 18 Lysogenic Cycle Steps 1 and 2 are identical to the first two steps in the lytic cycle. NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNNNNNNN NNNNN nnn nnn nnn nnn nnn nnd ddd ATTACHMENT PENETRATION Slide 19 Lysogenic Cycle INTEGRATION 3.Integration Phage DNA integrates into bacterial DNA Slide 20 Lysogenic Cycle INTEGRATION When it becomes integrated into the host DNA, the viral genome is referred to as a PROPHAGE. Slide 21 Lysogenic Cycle REPLICATION 4.Replication The integrated prophage replicates when bacterial DNA replicates Slide 22 Lysogenic Cycle NNNNNNNN NNNNNNNN nnn nnn nnn nnn nnn nnd Viruses that enter into a lysogenic cycle are known as TEMPERATE VIRUSES Slide 23 What is special about Bacteriophage ? ATTACHMENT PENETRATION REPLICATION AND SYNTHESIS ASSEMBLY RELEASE / LYSIS INTEGRATION REPLICATION Slide 24 Bacteriophage attached to an E. coli Bacterium Slide 25 Replication of Viral Nucleic Acids DNA Viruses replication of viral DNA is similar to the process that the host cell uses to replicates its own DNA DNA DNA Slide 26 Replication of Viral Nucleic Acids Most RNA Viruses replication of viral RNA is dependent upon an enzyme that is encoded on the viral genome RNA RNA Slide 27 Replication of Viral Nucleic Acids RNA viruses that convert their RNA into DNA using an enzyme that is included with the viral genome RNA DNA Retroviruses Slide 28 Replication of Viral Nucleic Acids Retroviruses This DNA is inserted into the host genome, where it can be transcribed back into viral RNA during normal cellular activity. Slide 29 Replication of Viral Nucleic Acids Retroviruses Once the DNA is integrated into the host genome, some retroviruses may become LATENT, where they remain inactive for long periods of time. Slide 30 Replication of Viral Nucleic Acids Human Immunodeficiency Virus (HIV), the virus that causes AIDS, is an example of a retrovirus that can become latent. Slide 31 Virus hijacks the host cell and keeps making more copies of itself until the host bursts open Virus integrates into the host genome and replicates when the host divides. When triggered it can enter the lytic cycle. RNA viruses that convert their RNA to DNA which then integrates into the host genome. Retrovirus that infects humans which can remain latent for long periods of time. Slide 32 HIV Infection When not active, the virus is described as being latent Slide 33 Lytic and Lysogenic Cycles Slide 34 ATTACHMENT PENETRATION REPLICATION AND SYNTHESIS ASSEMBLY RELEASE / LYSIS INTEGRATION REPLICATION Slide 35 ddddddd ddddddd ddddddd ddddddd ddddddd ddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd ddd Lytic Cycle Slide 36 ddddddd ddddddd ddddddd ddddddd ddddddd ddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd dddddddd ddd Lysogenic Cycle Slide 37 Lytic and Lysogenic Cycles