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Transcript
Bacteria and Viruses Section 2: Viruses Section 2 Bacteria and Viruses Section 2 Key Ideas • Why is a virus not considered a living organism? • What two structures are characteristic of viruses? • What are two ways that a virus can reproduce? • What are viroids and prions? Bacteria and Viruses Section 2 Is a Virus Alive? • Viruses are not considered living because they are missing key characteristics of living organisms. • Viruses do have genetic material, but they cannot reproduce on their own. • Viruses reproduce by infecting cells. – Use cell’s ribosomes, ATP, enzymes, and other molecules to make more viruses. Bacteria and Viruses Is a Virus Alive?, continued • Viruses do not grow. Instead, they are assembled into their full size within a cell. • Viruses do not carry out any metabolic activities, do not have any cytoplasm or organelles, and do not maintain homeostasis. Section 2 Bacteria and Viruses Visual Concept: Virus Section 2 Bacteria and Viruses Section 2 Viral Structure • The structure of a virus is relatively simple with two structures that are characteristic of all viruses. • nucleic acid • capsid – protein sheath that surrounds the nucleic acid core in a virus. • envelope – membranelike layer that covers the capsid of some viruses. Bacteria and Viruses Section 2 Viral Structure, continued The genetic material of a virus can be either RNA or DNA. DNA viruses • The genetic material of a DNA virus can become inserted into the host cell’s DNA or may remain separate. • The virus makes copies of its DNA by using the host cell’s enzymes and nucleotides. • Viral DNA also directs production of mRNA and proteins that are assembled into new viruses. Bacteria and Viruses Section 2 Viral Structure, continued RNA Viruses • Method 1 – viral RNA is used directly to make mRNA, which is used to make more viral RNA. • Method 2 – RNA is transcribed into DNA, inserted into the host cell’s DNA, and then transcribed into viral mRNA. – these are called retroviruses. Bacteria and Viruses Section 2 Viral Structure, continued Capsid • The protein coat, or capsid, of a virus encloses its genetic material. • The proteins on the host cell must match proteins on the capsid of the virus, as a key matches a lock. • Capsids have a variety of shapes. Bacteria and Viruses Section 2 Viral Structure, continued Envelope • The envelope gives the virus an overall spherical shape, but the capsid can have a very different shape. • The envelope is made of proteins, lipids, and glycoproteins. Bacteria and Viruses Visual Concept: Parts of a Virus Section 2 Bacteria and Viruses Viral Structure, continued Tail Fibers • Viruses that infect bacteria are called bacteriophages or just phages. • tail and tail fibers – function like a tiny syringe – injects the viral DNA Section 2 Bacteria and Viruses Visual Concept: Bacteriophage Section 2 Bacteria and Viruses Section 2 Reproduction • A viral infection begins when the genetic material of a virus enters a host cell. • Once inside the cell, a virus can reproduce by two different processes. • Viruses can reproduce by a lytic life cycle and a lysogenic life cycle. Bacteria and Viruses Section 2 They Lytic and Lysogenic Life Cycle Bacteria and Viruses Section 2 Reproduction, continued Lytic Cycle • The cycle of viral infection, reproduction, and cell destruction is called the lytic cycle. • Viral genetic material that enters a cell but remains separate from the host cell’s DNA. • The virus uses the host cell’s organelles, etc. to replicate the virus’s DNA • proteins are assembled with the replicated viral DNA to form complete viruses. Bacteria and Viruses Section 2 Reproduction, continued Lytic Cycle • The host cell breaks open, releases newly made viruses, and dies. The new virus particles can infect other host cells. • Viruses that reproduce only by the lytic cycle are often called virulent. Bacteria and Viruses Visual Concept: Lytic Cycle Section 2 Bacteria and Viruses Section 2 Reproduction, continued Lysogenic Cycle • When viral DNA becomes part of its host cell’s DNA, the virus is called a prophage. • When the host cell replicates its own DNA, the cell also replicates the provirus. New cells are produced that contain the provirus. Many cells may be produced that contain the viral DNA. • New virus particles are not assembled, and the host cell is not destroyed. Bacteria and Viruses Section 2 Reproduction, continued Lysogenic Cycle • This process is called the lysogenic cycle. After days, months, or even years, the provirus may leave the host’s DNA and enter a lytic cycle. • If the virus never enters the lytic cycle, it may become a permanent part of its host’s genome. • A virus whose reproduction includes the lysogenic cycle is called a temperate virus. Bacteria and Viruses Visual Concept: Lysogenic Cycle Section 2 Bacteria and Viruses Section 2 Visual Concept: Relationship Between Lytic and Lysogenic Cycles Bacteria and Viruses Section 2 Viroids and Prions Viroids • A viroid is a single strand of RNA that has no capsid. • The RNA of viroids is much smaller than that of viruses. • Viroids can replicate inside a host’s cell to make new viroids. • Viroids cause abnormal development and stunted growth in plants. Bacteria and Viruses Section 2 Viroids and Prions, continued Prions • Prions are nonfunctioning, misshapen versions of proteins. They attach to normal proteins that are found in the brain. • The misfolding spreads like a chain reaction and destroys brain tissue. • Prions can be transmitted by eating food contaminated with infected brain tissue.
