Virology-To-Students病毒学教学讲解课件.ppt

1、1VIROLOGYYingchun HouYingchun Hou,M.D.,Ph.D.,M.D.,Ph.D.School of Life SciencesShaanxi Normal University2Introducing Myself University Student:Xian Medical College Master Degree:Kunming Medical College Basic Medical Teacher:FMMU Ph.D.Degree:FMMU Physician(Internal Medicine)in Xi-Jing Hospital Researc

2、h Associate:Wayne State University Postdoctoral Scholar:NIH Postdoctoral Research Fellow:Wayne State University Senior Scientist:VA Medical Center,Detroit,MI Professor:SNNU3Chapter 1:Virus and VirologyVirus:Viruses belong to micro organism,but they are the most simple biological organism in the worl

3、d that contain DNA or RNA core and protein coat or capsid only(Virion).Viruses are so small that you can see them under a powerful microscope or electro microscope only.The life cycle of viruses is very simple that shows virus replication only.All of virus must survive in cells.4Most of viruses are

4、very harmful to human being,animal,or plants.No any antibiotic is sensitive to virus so far.So,virus diseases are more threatened than other micro-organisms to human health.Pseudovirus:Some“virus”contains DNA or RNA inside,but the DNA or RNA is from host.Pseudovirus can not be replicated,and it is n

5、ot pathogen also.Reverse transcript virus or DNA provirus:Some RNA virus can be reversely transcribed as cDNA,and the cDNA can combine into the genome of host.Viroid:No coat or capsid,so,the nucleic acid is nude.Viroid is the pathogen to plants usually.Phage:The virus parasites in bacteria only.5Vir

6、ology and Its Importance to UsVirology:A academic field that includes the researches on virus and control the virus to protect human being and plant.Some time and for some virus,we can use the virus to make researches.The roles of viruses to the development of life sciences:Virus diseases,cardiovasc

7、ular diseases,and cancers are the main killers to modern human being.Excepting that,virology is very important for the development of life sciences as the follows:6The Role of Animal Viruses in Understanding the Basic Outlines of Eukaryotic Gene Regulation:The first transcriptional enhancer element(

8、acts in an orientation-and distance-independent fashion)was described in the SV40 genome,as was a distance-and orientation-dependent promoter element observed with the same virus.The transcription factors that bind to the promoter,SP-1,or to the enhancer element,such as AP-1,AP-2,and which are essen

9、tial to promote transcription along with the basal factors,were first described with SV40.Almost everything we know about the steps of messenger RNA(mRNA)processing began with observations made with viruses.For examples,RNA splicing of new transcripts was first described with the adenoviruses.The si

10、gnal for polyadenylation in the mRNA was first found using SV40.7 The cap and methylation of bases at the 5end of mRNA was first detected using reoviruses.The discovery of the role of interferon in inducing a set of gene products that act on translational regulatory events owes its origins to virolo

11、gy.Posttranslational processing of proteins by proteases,carbohydrate addition to proteins in the Golgi apparatus,phosphorylation by a wide variety of important cellular protein kinases,or the addition of fatty acids to membrane-associated proteins have all been profitably studied using viruses.Inde

12、ed,a good deal of our present-day knowledge in cell biology of how protein trafficking occurs and is regulated in cells comes from the use of virus-infected cell systems.Clearly,the field of gene regulation has relied on virology for many of its central tenets.8The Role of Animal Viruses in the Reco

13、mbinant DNA Revolution:The discovery of the enzyme reverse transcriptase in retroviruses(5,138)not only helped to prove how retroviruses replicate but also provided an essential tool to produce complementary DNAs(cDNAs).The first restriction enzyme map of a chromosome,HindII plus III,was with SV40 D

14、NA,and the first DNA to show the specificity of a restriction enzyme was SV40 DNA with EcoRI.Some of the earliest DNA cloning experiments used SV40 DNA into lambda,or human b-hemoglobin genes into SV40 DNA,to construct the first mammalian expression vectors.Indeed,a debate about these very experimen

15、ts led to a temporary moratorium on all such recombinant experiments.9 From the beginning,several animal viruses had been developed into expression vectors for foreign genes,including SV40,the retroviruses,the adenoviruses,and adeno-associated virus,which has the remarkable property of site preferen

16、tial integration.Modern day strategies of gene therapy will surely rely on some of these recombinant viruses.The first cDNA cloning of hemoglobin sequences utilized lambda vectors for the cloning and replication of these mRNA copies.In a nice twist of events,the long-elusive hepatitis virus C(non-A,

17、non-B)was cloned from serum using recombinant DNA techniques,reverse transcriptase,and lambda phage vectors.10The Role of Animal Virology in Oncology:It is not too strong a statement to say that we owe a great proportion of our present understanding of the origins of human cancers to two major group

18、s of animal viruses,the retroviruses and DNA tumor viruses.The oncogenes were first discovered and proven to exist in a virus and then in the host cell genome using Rous sarcoma virus.A wide variety of retroviruses have captured,altered,and delivered oncogenes to the virologists.The insertion of ret

19、roviruses into the genomes of cancerous cells also helped to locate additional oncogenes.The second group of genes that contribute to the origins of human cancers,the tumor suppressor genes,has been shown to be intimately associated with theDNA tumor viruses.11 Genetic alterations at the p53 locus a

20、re the single most common mutations known to occur in human cancers(60%to 65%of the time).The p53 protein was first discovered in association with the SV40 large T-antigen.SV40,the human adenoviruses,and the human papilloma viruses all encode oncogenes that produce proteins that interact with and in

21、activate the functions of two tumor suppressor gene products,the retinoblastoma susceptibility gene product(Rb)and p53.The cellular oncogenes and the tumor suppressor genes in human cancers have been studied and understood most profitably using these viruses.12 The viruses that cause cancers have pr

22、ovided some of the most extraordinary episodes in modern animal virology.The story of the Epstein-Barr virus and its role in several cancers,as well as in infectious mononucleosis,provides us with the best in detective story science.The story is not yet complete and many mysteries remain.Similarly,t

23、he identification of a new pathologic disease,adult T-cell leukemia,led to the isolation of a virus that causes the disease and the realization that this virus human T-cell leukemia virus(HTLV-1)had been found previously.Although this discovery provided the virus,there is yet to be a satisfactory ex

24、planation of how this virus contributes to adult T-cell leukemia.13 Equally interesting is the road to the hepatitis B virus and hepatocellular carcinomas.By 1967,S.Krugman and his colleagues had good evidence distinguishing between hepatitis A and B viruses,and in the same year B.Blumberg et al.det

25、ected the Australia antigen.Through a tortuous path,it eventually became clear that the Australia antigen was a diagnostic marker for hepatitis B.Although this freed the blood supply of this dangerous virus,Hilleman at Merck,Sharp and Dohme and the Chiron Corporation(which later isolated the hepatit

26、is C virus)went on to produce the first human vaccine that prevents hepatitis B infections and very likely hepatocellular carcinomas associated with chronic virus infections.The idea of a vaccine that can prevent cancer comes some 82 to 85 years after the first discoveries of tumor viruses.At presen

27、t,in many countries,newborn infants have been inoculated to prevent hepatitis B infections.Based on the epidemiologic predictions,this vaccination program should result in significant reduction of liver cancer cases in 40 to 50 years from now.14Vaccines:The Salk and then Sabin poliovirus vaccines we

28、re the first beneficial products of the cell culture revolution.In the early 1950s in the United States,just before the introduction of the Salk vaccine,about 21,000 cases of poliomyelitis were reportedannually.Today,the number is fewer than 10.Among the most remarkable achievements of last century

29、is the complete eradication of smallpox,a disease with a history of over 2,000 years.In 1966,the World Health Organization began a program to immunize all individuals who had come into contact with an infected person.This strategy,as opposed to trying to immunize an entire population(which simply wa

30、s not possible),worked and,in October 1977,Ali Maolin of Somalia was the last person in the world to have a naturally occurring case of smallpox.Because smallpox has no animal reservoir and requires person-to-person contact for its spread,most scientists agree that we are free of this disease.What m

31、ost scientists do not agree on is whether we should store smallpox virus samples as a reference for the future.15 The viral vaccines used in the past have included live attenuated vaccines,killed virus vaccines,and subunit vaccines.Both the killed virus vaccine(Salk)and the recombinant subunit vacci

32、ne(hepatitis B,S antigen)were new to the modern era ofvirology.In the future,we will see one virus(vaccinia virus)presenting the antigens of a different virus,the injection of DNA-encoding viral antigens,and the use of specific interleukins or hormones with vaccines to stimulate immunity at specific

33、 locations in the host and to elucidate specific immunoglobulin classes.16Chapter 2:Taxology of Virus17Classification:A coherent and workable system of classification,a taxonomy,is a critical component of the discipline of virology.However,the unique nature of viruses has defied the strict applicati

34、on of many of the traditional tools of taxonomy used in other disciplines of biology.Thus,scientists who concern themselves with global taxonomy of organisms have traditionally left the viruses scattered throughout the major kingdoms,reasoning that viruses have more in common with their individual h

35、osts than they do with each other.18 Usually,based on their hosts,you can call some viruses as animal viruses(associated with human health),plant viruses(Important to agriculture and national economy),insect viruses,avian viruses,bacterial viruses(phages),and others.Also,prokaryotic viruses(phages)a

36、nd eukaryotic viruses can be often found in some books or papers.So far,more than 4,000 species of virus have be established in the world.All viruses are taxologically sorted into an internationally acceptable system named as International Virus Taxological System.This system is handled by ICTV(Inte

37、rnational Committee of Taxonomy of Virus).The ICTV is a committee of the Virology Division of the International Union of Microbiological Societies.The objectives of the ICTV are to develop an internationally agreed-upon taxonomy and nomenclature for viruses,to maintain an index of virus names,and to

38、 communicate the proceedings of the committee to the international community of virologists.The ICTV publishes an update of the taxonomy at approximately 3-year intervals.19 The ICTV also supports a web site(http:/www.ncbi.nlm.nih.gov/ICTV/),which contains all its published information in a convenie

39、ntly interactive format,plus links to additional sites of interest,including the universal virus database of the ICTV(ICTVdB).If you want to learn the detailed information about the system,the following websites are available for that:http:/life.anu.edu.au/viruses/welcome.htm http:/www.res.bbsrc.ac.

40、uk/mirror/auz/welcome.htm http:/www.ncbi.nlm.nih.gov/ICTVdB/welcome.htm Most important,the virus taxonomy that has been developed works well.For the trained virologist,the mention of a virus family or genus name,such as family Herpesviridae or genus Rotavirus,immediately conjures forth a set of char

41、acteristics that form the basis for further discussion or description.Virus taxonomy serves an important practical purpose as well,in that the identification of a limited number of biologic characteristics,such as virion morphology,genome structure,or antigenic properties,quickly provides a focus fo

42、r identification of an unknown agent for the clinician or epidemiologist and can significantly impact further investigation into treatment or prevention of a virus disease.20Virus Properties and Their Use in Taxonomy:The taxonomic method adopted for use in virology is polythetic,meaning that any giv

43、en virus group is described using a collection of individual properties.The description of a virus group is nonsystematic in that there exists no fixed list of properties that must be considered for all viruses,and no strict formula for the ordered consideration of properties.Instead,a set of proper

44、ties describing a given virus is simply compared with other viruses described in a similar fashion to formulate rational groupings.Dozens of properties can be listed for description of a virus,but they break down generally into virion morphology,including size,shape,capsid symmetry,and presence or a

45、bsence of an envelope,virion physical properties,including genome structure,sensitivity to physical or chemical insults;specific features of viral lipids,carbohydrates,and structural and nonstructural proteins;antigenic properties;and biologic properties including replication strategy,host range,mod

46、e of transmission,and pathogenicity.21The Hierarchy:The ICTV has adopted a universal classification scheme that employs the hierarchical levels of order,family,subfamily,genus,and species.Because the polythetic approach to classification introduces viruses into the middle of the hierarchy,and becaus

47、e the ICTV has taken a relatively conservative approach to grouping taxa,levels higher than order are not currently used.Levels lower than species,such as strains and variants,are not officially considered by the ICTV but are left to specialty groups.22Chapter 3:Structures and Life CycleI.Structures

48、:232425Shapes and Size of Virus:The main shapes of virus are as the follows:1.Spheroid or globoid virus with or without envelope.The number of virus member in this shape is biggest.Usually,they host in human being or animal.2.Band or rod form virus.Usually,host in plants or insects.3.Brick form viru

49、s.Brick form viruses are biggest and most complex viruses.Usually,host in human being or animal.4.Virus with a globoid head and a rod tail.Usually,host in bacteria,and we give them a different name:Phage.5.Insect viruses inside inclusion body.One inclusion body contain many virus particles inside.26

50、 Virus size is very different between viruses from hundreds nm to ten more nm.So,usually,we use electron microscope to check or make observation on virus particles.You have to remember the follows in your mind:1.The resolving power of an optical microscope =0.25m(250nm or 2500)2.The resolving power