470 likes | 738 Views
Chapter 13 Characterizing Viruses, Viroids, and Prions. Not all pathogens are cellular!. Many infections of humans, animals, plants, and even bacteria are caused by _________ ____________________ Acellular infectious particles include _____________ _____________ _____________.
E N D
Not all pathogens are cellular! • Many infections of humans, animals, plants, and even bacteria are caused by _________ ____________________ • Acellular infectious particles include • _____________ • _____________ • _____________
General characteristics of viruses, viroids, and prions • Simple compared to cells • Lack cell membranes • Composed of 1 or a few organic molecules • Lack most of the characteristics of life described in chapters 3, 5, 6, and 7
Shared Characteristics of Viruses Virus Minuscule (usually measured in nanometers), acellular infectious agent having either ____ or ______ _______________________ Cause many infections in humans, animals, plants, and bacteria Cause most of the diseases that plague the industrialized world Examples: common cold, influenza, herpes, SARS, Polio, HIV
Shared Characteristics of Viruses __________carry out any metabolic pathway outside of a cell Neither _________________to the environment Cannot _____________independently Recruit the cell’s (animal, plant, or bacterial cells) metabolic pathways to reproduce No cytoplasmic membrane, cytosol (liquid portion of cytoplasm), organelles Have extracellular and intracellular state
Shared Characteristics of Viruses Extracellular State Protein coat (________) surrounding nucleic acid Some have a phospholipid ____________which surrounds the capsid Outermost layer provides ____________and _____________sites for host cells Intracellular State Capsid removed Virus exists as nucleic acid
Differentiating Viruses We can differentiate viruses from one another based on their _________________ Show more variety in genomes than cells The genetic material a virus contains is the primary way scientists categorize and classify viruses
Differentiating Viruses • We can differentiate viruses from one another based on their Genetic Material • Viral genome may be DNA or RNA, but never both • _________________________________ • ds= double stranded, ss= single stranded • Linear and segmented or single and circular • Influenza virus genome has 8 linear segments of ssRNA • Much smaller than genomes of cells • Cells __________have ___________________DNA • ssDNA and dsRNA are almost nonexistent in cells
Differentiating Viruses Hosts of Viruses Most viruses infect only particular host’s cells _________________ Dog viruses don’t infect humans May be so specific they infect only particular kind of cell in a particular host HIV attacks helper T lymphocytes in humans but does not infect muscle or bone cells _______________– infect many kinds of cells in many different hosts Rabies
Differentiating Viruses • Host specificity • Due to viral surface ____________which have a precise __________ (attraction) for complementary proteins on the host cell membranes
Tobacco mosaic virus infected leaf on left Figure 13.3 Hosts of viral infections-overview Bacteria (blue/gray) under attack from a bacteriophage (pink) Human WBC cytoplasmic membrane with HIV particles (blue) attached
Differentiating Viruses • Hosts of Viruses • ____________________can be infected by a virus • Archaeal, bacterial, plant, protozoan, fungal, animal • Most research focuses on animal and bacterial viruses • A virus that infects a bacterium is called a ________________or phage • Bacteriophages out number all bacteria, archaea, and eukaryotes put together!
E. coli (bacterium)(1000 nm 3000 nm) Figure 13.4 Sizes of selected virions Red blood cell(10,000 nm in diameter) Bacterialribosomes(25 nm) Smallpox virus(200 nm 300 nm) Poliovirus(30 nm) Bacteriophage T4(50 nm 225 nm) Bacteriophage MS2(24 nm) Tobacco mosaic virus(15 nm 300 nm)
Differentiating Viruses Capsid Morphology Capsids Provide ________________for viral nucleic acid Means of _________________to host’s cells Composed of proteinaceous subunits called _______________ Capsomere made of single or multiple types of proteins
Differentiating Viruses Viral Shapes Three basic shapes ___________(capsomeres bond in a spiral fashion) ___________(close to spherical, geodesic dome) ___________(many different shapes, bullet shaped rabies virus)
Differentiating Viruses The ________________ Acquired from host cell during viral replication or release Envelope is portion of _____________system of _______ Composed of ____________bilayer and _________ Some proteins are virally coded glycoproteins (spikes) Envelope’s proteins and glycoproteins often play role in host recognition
Viral Replication Dependent on hosts’ organelles and enzymes to produce new viral particles ___________________ Replication cycle usually results in ______and ______of host cell Basic stages of lytic replication cycle Recognition and Attachment Entry Chromosome degraded Synthesis Assembly Release
Attachment Bacteriophagegenome Entry Tail sheath Outer membrane Peptidoglycan Cytoplasmicmembrane Figure 13.8 The lytic replication cycle in bacteriophages-overview Bacterialchromosome Entry Attachment Phage DNA Lytic replicationcycle of bacteriophage Bacterialchromosomedegraded Release Synthesis Phage proteins Assembly Assembly Sheath Base DNA Mature virion Tail Tail fibers Mature head Capsid
Viral Replication __________________ Modified replication cycle Infected host cells _______________________for generations before they lyse Inactive bacteriophage is called a _____________ ______________occurs and the prophage is excised from the host chromosome Induction can occur through DNA damaging chemicals, UV light, X rays After induction the _______________will occur
Attachment Prophagein chromosome Entry Lambda phage Lyticcycle Figure 13.11 The lysogenic replication cycle in bacteriophages: phage lambda and E. coli Lysogeny Synthesis Release Replication ofchromosomeand virus;cell division Assembly Induction Further replications andcell divisions
Viral Replication Replication of Animal Viruses Same basic replication pathway as bacteriophages Recognition and Attachment Entry Chromosome degraded Synthesis Assembly Release
Viral Replication Replication of Animal Viruses Attachment of animal viruses Chemical attraction between glycoproteins or proteins on the virus exactly fitting _______________________on animal cells Animal viruses do not have tails or tail fibers like bacteriophages do Have glycoprotein spikes or other attachment molecules that mediate attachment http://highered.mcgraw-hill.com/classware/ala.do?alaid=ala_1697939
Figure 13.12 Three mechanisms of entry of animal viruses-overview
Viral Replication Replication of Animal Viruses Synthesis of animal viruses Requires different strategy depending on its nucleic acid DNA viruses often enter the nucleus RNA viruses often replicate in the cytoplasm
Viral Replication Replication of Animal Viruses Assembly and release of animal viruses Most DNA viruses assemble in nucleus Most RNA viruses develop solely in cytoplasm Number of viruses produced depends on type of virus and size and initial health of host cell Enveloped viruses cause ____________________ Released from cell by _______________ Naked viruses are released by __________or _____
Envelopedvirion Budding ofenveloped virus Figure 13.14 The process of budding in enveloped viruses Cytoplasmicmembraneof host Viral glycoproteins Viral capsid
Viral Replication Replication of Animal Viruses Latency of animal viruses (chicken pox and herpes virus) Called __________viruses or proviruses When animal viruses remain dormant in host cells May be prolonged for years with no viral activity Different than ___________ Some latent viruses do not become incorporated into host chromosome _______________________________________________________ Incorporation of provirus into host DNA is _________ HIV
The Role of Viruses in Cancer Viruses cause ___________ of human cancers Some carry copies of oncogenes as part of their genomes Oncogenes are involved in cell division and are usually repressed (not activated) and no cancer results Some promote oncogenes already present in host Some interfere with tumor repression Specific viruses are known to cause human cancers Kaposi’s sarcoma (HIV) Cervical cancer (HPV)
Culturing Viruses in the Laboratory Viruses must be _____________________________ ________________________________________ Culturing Viruses in Mature Organisms In bacteria In plants and animals Culturing Viruses in EmbryonatedChicken Eggs Inexpensive, among the largest of cells, free of contaminating microbes, and contain a nourishing yolk Culturing Viruses in Cell (Tissue) Culture
Figure 13.17 Viral plaques in a lawn of bacterial growth on the surface of an agar plate Bacterial lawn Viral plaques
Are Viruses Alive? Infectious agents with both living and non-living characteristics Living characteristics: Nonliving characteristics:
Not all viruses are bad! • A previously unknown virus has been found which attackes tiny marine alga that multiplies and forms algal blooms • Algal blooms can often be seen from space! • Deplete water of oxygen • Harming fish and other marine life • A bacteriophage has been discovered which transfers genes for photosynthetic machinery into cyanobacteria increasing the rate of photosynthesis • Up to 10 million of these viruses have been found in a single milliliter of seawater! • Much of the oxygen we breath may be attributed to the action of this virus on cyanobacteria
Other Parasitic Particles: Viroids and Prions Characteristics of ____________ Extremely small, _______________________ __________________________ Similar to RNA viruses, but ________capsid No known animal diseases are known to be caused by viroids
Characteristics of Prions • Proteinaceous infectious agents • Cause spongiform encephalopathies: • Mad cow • Scrapie • Kuru • Creutzfeld-Jakob syndrome • _____________to proteases, UV light, heat, disinfectants
Prions Characteristics of Prions Prion diseases Fatal neurological degeneration, fibril deposits in brain, and loss of brain matter Large vacuoles form in brain Characteristic spongy appearance Spongiform encephalopathies Prions only destroyed by incineration or autoclaving in 1 N NaOH
Prions • Characteristics of Prions • Proteinaceous infectious agents • Cellular PrP protein • Made by all mammals • Normal structure with -helices called cellular PrP • Prion PrP • Disease-causing form with -pleated sheets called prion PrP • Prion PrP changes shape of cellular PrP so it becomes prion PrP
Figure 13.22 The two stable, three-dimensional forms of prion protein (PrP)-overview