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Viruses. Cause many infections of humans, animals, plants, and bacteria Cannot carry out any metabolic pathway Neither grow nor respond to the environment Cannot reproduce independently Obligate intracellular parasites. Viruses. Cause most diseases that plague industrialized world
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Cause many infections of humans, animals, plants, and bacteria Cannot carry out any metabolic pathway Neither grow nor respond to the environment Cannot reproduce independently Obligate intracellular parasites Viruses
Cause most diseases that plague industrialized world Virus – miniscule, acellular, infectious agent having one or several pieces of either DNA or RNA No cytoplasmic membrane, cytosol, or organelles Have extracellular and intracellular state Characteristics of Viruses
Extracellular state Called virion Protein coat (capsid) surrounding nucleic acid Nucleic acid and capsid also called nucleocapsid Some have phospholipid envelope Outermost layer provides protection and recognition sites for host cells Characteristics of Viruses
Intracellular state Capsid removed Virus exists as nucleic acid Characteristics of Viruses
Type of genetic material they contain Kinds of cells they attack Size of virus Nature of capsid coat Shape of virus Presence or absence of envelope How Viruses Are Distinguished
Sizes of Viruses Figure 13.4
Show more variety in nature of their genomes than do cells May be DNA or RNA; never both Primary way scientists categorize and classify viruses Can be dsDNA, ssDNA, dsRNA, ssRNA May be linear and composed of several segments or single and circular Much smaller than genomes of cells Genetic Material of Viruses
Most only infect particular kinds of host’s cells Due to affinity of viral surface proteins or glycoproteins for complementary proteins or glycoproteins on host cell surface May only infect particular kind of cell in host Generalists – infect many kinds of cells in many different hosts Hosts of Viruses
Capsids – protein coats that provide protection for viral nucleic acid and means of attachment to host’s cells Capsid composed of proteinaceous subunits called capsomeres Come capsids composed of single type of capsomere; other composed of multiple types Capsid Morphology
Acquired from host cell during viral replication or release; envelope is portion of membrane system of host Composed of phospholipid bilayer and proteins; some proteins are virally-coded glycoproteins (spikes) Envelope’s proteins and glycoproteins often play role in host recognition The Viral Envelope
Dependent on host’s organelles and enzymes to produce new virions Replication cycle may or may not result in death of host cell Stages of lytic replication cycle Attachment Entry Synthesis Assembly Release Viral Replication
Chemical attraction Animal viruses do not have tails or tail fibers Have glycoprotein spikes or other attachment molecules that mediate attachment Attachment of Animal Viruses
Each type of animal virus requires different strategy depending on its nucleic acid Must consider How mRNA is synthesized? What serves as template for nucleic acid replication? Synthesis of Animal Viruses
Genome Replication and Protein Synthesis Figure 13.13
Most DNA viruses assemble in and are released from nucleus into cytosol Most RNA viruses develop solely in cytoplasm Number of viruses produced and released depends on type of virus and size and initial health of host cell Enveloped viruses cause persistent infections Naked viruses released by exocytosis or may cause lysis and death of host cell Assembly and Release of Animal Viruses
Release Enveloped and Naked • Lysis • Exocytosis
Release • Enveloped • Budding
When animal viruses remain dormant in host cells May be prolonged for years with no viral activity, signs, or symptoms Some latent viruses do not become incorporated into host chromosome When provirus is incorporated into host DNA, condition is permanent; becomes permanent physical part of host’s chromosome Latency of Animal Viruses
Normally, animal’s genes dictate that some cells can no longer divide and those that can divide are prevented from unlimited division Genes for cell division “turned off” or genes that inhibit division “turned on” Neoplasia – uncontrolled cell division in multicellular animal; mass of neoplastic cells is tumor Benign vs. malignant tumors Metastasis Cancers The Role of Viruses in Cancer
Some carry copies of oncogenes as part of their genomes Some stimulate oncogenes already present in host Some interfere with tumor repression when they insert into host’s repressor gene Several DNA and RNA viruses are known to cause ~15% of human cancers Burkitt’s lymphoma Hodgkin’s disease Kaposi’s sarcoma Cervical cancer How Viruses Cause Cancer
Oncogene Theory Figure 13.15
In Whole Organisms Bacteria Plants and Animals Embryonated Chicken Eggs In Cell (Tissue Culture) Culturing Viruses in the Laboratory
Culturing Viruses in Embryonated Chicken Eggs Figure 13.17
Culturing Viruses in Cell (Tissue) Culture Figure 13.18
Proteinaceous infectious agents Composed of single protein PrP All mammals contain gene that codes for primary sequence of amino acids in PrP Two stable tertiary structures of PrP Normal functional structure with α-helices called cellular PrP Disease-causing form with β-sheets called prion PrP Prion PrP converts cellular protein into prion PrP by inducing conformational change Characteristics of Prions
Tertiary Structures of PrP Figure 13.21
All involve fatal neurological degeneration, deposition of fibrils in brain, and loss of brain matter Large vacuoles form in brain; characteristic spongy appearance Spongiform encephalopathies – BSE, CJD, kuru Only destroyed by incineration; not cooking or sterilization Prion Diseases
Classified based on the type of DNA they contain, the presence or absence of an envelope, size, and the host cells they attack Contain either double-stranded DNA (dsDNA) or single-stranded DNA (ssDNA) for their genome Double-stranded DNA viruses Poxviridae, Herpesviridae, Papillomaviridae, Polyomaviridae, and Adenoviridae DNA Viruses
Double-stranded DNA viruses Have complex capsids and envelopes Largest viruses Infect many mammals Most animal poxviruses are species specific Unable to infect humans because they cannot attach to human cells Infection occurs primarily through the inhalation of viruses Close contact is necessary for infection by poxviruses Poxviridae
Smallpox and molluscum contagiosum are the two main poxvirus diseases of humans Some diseases of animals can be transmitted to humans All poxviruses produce lesions that progress through a series of stages Poxviridae
In the genus Orthopoxvirus Commonly known as variola Exists in two forms Variola major causes sever disease that can result in death Variola minor causes a less severe disease with a much lower mortality rate Both forms infect internal organs and then move to the skin where they produce pox Scars result on the skin, especially on the face Smallpox
There are a number of factors that allowed eradication of smallpox Inexpensive, stable, and effective vaccine No animal reservoirs Obvious symptoms allow for quick diagnosis and quarantine Lack of asymptomatic cases Virus is only spread via close contact Smallpox
Smallpox as a Bioweapon • can be produced in large quantities • stable for storage and transport • stable in aerosolized form (up to 2 days) • high mortality • highly infectious (person-to-person spread) • most of the world has little to no immunity
Therapy/Prevention of Smallpox • Vaccination • vaccination stopped in 1979 (1972 in U.S.) • last case in U.S. 1949 • 2 million deaths Worldwide in 1967 • Vaccinia virus • leaves scar • Supportive therapy – no effective antiviral once infected
Caused by Molluscipoxvirus Spread by contact among infected children Sexually active adults can sometimes contract a genital form of the disease Skin disease characterized by smooth, waxy, tumorlike nodules on the face, trunk, and limbs Virus produces a weak immune response Causes neighboring cells to divide rapidly thus acting like a tumor-causing virus Molluscum Contagiosum
Poxvirus infections also occur in animals Transmission of these poxviruses to humans require close contact with infected animals Infections of humans are usually mild Can result in pox and scars but little other damage Cowpox was used by Edward Jenner to immunize individuals against smallpox Other Poxvirus Infections
Causes papillomas, commonly known as warts Benign growths of the epithelium of the skin or mucous membranes Papillomas form on many body surfaces Often painful and unsightly Genital warts are associated with an increased risk of cancer Papillomavirus Infections
Transmitted via direct contact and via fomites autoinoculation Viruses that cause genital warts invade the skin and mucous membranes during sexual intercourse Genital warts are a common sexually transmitted disease Epidemiology and Pathogenesis of Papillomavirus Infections
Diagnosis Usually based on observation of the papillomas Diagnosis of cancers results from inspection of the genitalia and by a PAP smear in women Treatment Some warts can be removed through various methods Treatment of cancers involves radiation and chemical therapy Diagnosis, Treatment, and Prevention
Prevention Prevention of most types of warts is difficult Genital warts can be prevented by abstinence and perhaps safe sex Diagnosis, Treatment, and Prevention
HPV vaccine • 2006 - Advisory committee on immunization practices (ACIP) recommended the HPV vaccine • recommended for girls/women 9-26 yrs old • before sexual contact • recommended at 11-12 years of age • vaccine (Gardasil) protects against 4 HPV strains (HPV 6, 11, 16, and 18)
One of the causative agents of the common cold Spread via respiratory droplets Respiratory infections Viruses are taken into cells lining the respiratory tract via endocytosis Symptoms include sneezing, sore throat, cough, headache, and malaise Adenoviridae
Infection of the intestinal tract can produce mild diarrhea Infection of the conjunctiva can result in pinkeye Adenoviridae
Adenovirus pathology • diarrhea in children • respiratory infection in children and adults • military recruits • close contact • physical activities (deep inhalation of virus into lungs) • stress • after infection, see immunity
Viruses attach to a host cell’s receptor and enter the cell through the fusion of its envelope with the cell membrane Herpesviruses can have latency They may remain inactive inside infected cells Viruses may reactivate causing a recurrence of manifestations of the disease Herpesviridae