Intervirology 1974;3:
|
|
- Olivia Houston
- 6 years ago
- Views:
Transcription
1 Further Section Intervirology 1974;3: Ackermann, Hans-W. and Eisenstark, Abraham: The present state of phage taxonomy Adam, Ervin, see Seth, Pradeep 1-14 Allison, Anthony C, see Melnick, Joseph L Anisimova, Ema; Tuckova, Eva, and Vonka, Vladimir: Penetration of nuclear inclusions into the cytoplasm in influenza-virus-infected cells Avery, Roger J. and Kelly, David C.: Bacteriophage T4 and T7 DNA: a study of their redundancy by renaturation kinetics Barahona, Horacio; Melendez, Luis V., and Melnick, Joseph L.: A compendium of herpes viruses isolated from non-human primates Bauer, Sally P., see Murphy, Frederick A Benyesh-Melnick, Matilda, see Kimura, Susumu Borecký, Ladislav; Fuchsberger, Nor-bert, and Hajnická, Valeria: Electrophoretic profiles and activities of human interferon in heterologous cells Borsa, Joseph; Long, Donald G.; Copps, Theodore P.; Sargent, Malcolm D., and Chapman, J. Donald: Reovirus transcriptase activation in vitro: further studies on the facilitation phenomenon Bose, Henry R., see Franklin, Ray B Braunwald, Jacqueline, see Tripier, Françoise Brown, Fred and Wild, Fabian : Variation in the coxsackievirus type B5 and its possible role in the etiology of swine vesicular disease Bucchini, Danielle; Fiszman, Marc, and Gerard, Marc: On a new inhibitor of poliovirus RNA replication Butel, Janet S., see Melnick, Joseph L Butel, Janet S., see Spira, Gad Butel, Janet S., see Talas, Margarita Campbell, William R., see Wagner, Grant W Chagnon, Andre; Gilker, Jean-Claude; Roy, Lucille; Dessureault, Pierre, and Payment, Pierre: Diagnosis of rubella virus infections. III. The usefulness of sucrose density gradient centrifugation and indirect fluorescent antibody staining to demonstrate rubella IgG antibodies Chairez, Ruben; Hollinger, F. Blaine; Melnick, Joseph L., and Dreesman, Gordon R.: Biophysical properties of purified morphologic forms of hepatitis B antigen Chapman, J. Donald, see Borsa, Joseph Cohen, Gary H., see Sasaki, Yukiko Copps, Theodore P., see Borsa, Joseph Dessureault, Pierre, see Chagnon, Andre
2 De Villγers, Ethel-Michele: Comparison of the capsid polypeptides of various bluetongue virus serotypes Downie, Allan W., see Fenner, Frank Dreesman, Gordon R., see Chairez, Ruben Dreesman, Gordon R., see Spira, Gad Duff, Ronald, see Seth, Pradeep 1-14 Eckhart, Walter, see Melnick, Joseph L Eddy, Bernice E., see Melnick, Joseph L Eisenstark, Abraham, see Ackermann, Hans-W Esparza, José, see Kimura, Susumu Estes, Mary K., see Spira, Gad Evans, Charles H., see Hsiung, Gueh- Djen Fenner, Frank; Pereira, Helio G.; Por-terfield, James S.; Joklik, Wolfgang K., and Downie, Allan W.: Family and generic names for viruses approved by the International Committee on Taxonomy of Viruses, June Fiszman, Marc, see Bucchini, Danielle Fong, Caroline K. Y., see Hsiung, Gueh-Djen Franklin, Ray B.; Maldonado, Rey-naldo L., and Bose, Henry R.: Isolation and characterization of reticulo-endotheliosis virus transformed bone marrow cells Fuchsberger, Norbert, see Borecký, La-dislav Ghendon, Y. and Porubel, Ludmila: Virion transcriptase activity of influenza virus isolates Gilker, Jean-Claude, see Chagnon, Andre Ginsberg, Harold S., see Rubenstein, FredE Girard, Marc, see Bucchini, Danielle Hadidi, Ahmed, see O Connor, Timothy E Hajnická, Valeria, see Borecký, Ladis-lav Harrison, Bryan D., see Kubo, Susumu Hollinger, F. Blaine, see Chairez, Ruben Hsiung, Gueh-Djen; Fong, Caroline K.Y., and Evans, Charles H.: Prevalence of endogenous oncornavirus in guinea pigs International Committee on Taxonomy of Viruses, Vertebrate Virus Subcommittee: Family and generic names for viruses approved by the International Committee on Taxonomy of Viruses, June Iτo, Yohei, see Nakajima, Kunihiro Joklik, Wolfgang K., see Fenner, Frank Joklik, Wolfgang K., see Schuerch, Alfred R Kelly, David C, see Avery, Roger J Kimura, Susumu ; Esparza, José ; Benyesh-Melnick, Matilda, and Schaffer, Priscilla A.: Enhanced replication of temperature-sensitive mutants of herpes simplex virus type 2 (HSV-2) at the non-permissive temperature in cells transformed by HSV Kirn, Andre, see Tripier, Françoise Kit, Saul, see Melnick, Joseph L
3 Klein, George; Sugden, Bill; Leibold, Wolfgang, and Menezes, José: Infection of EBV-genomenegative and -positive human lymphoblastoid cell lines with biologically different preparations ofebv Krainick-Riechert, Christa Maria, see Schmitz, Herbert Kubo, Susumu; Harrison, Bryan D., and Robinson, David J.: Effect of phosphate on the infection of tobacco protoplasts by tobacco rattle virus Le Bouvier, George L., see Murphy, Bert L Leibold, Wolfgang, see Klein, George Levine, Arnold J., see Melnick, Joseph L Long, Donald G., see Borsa, Joseph Maldonado, Reynaldo L., see Franklin, RayB Markovic, Ljubisa, see Tripier, Françoise Martin, Doris, see Moroni, Christoph Matsuhisa, Tadao, see Schuerch, Alfred R Maynard, James E., see Murphy, Bert L McMillan, Virginia L., see Tevethia, SatvirS Melendez, Luis V., see Barahona, Hora-cio Melnick, Joseph L.; Allison, Anthony C.; Butel, Janet S.; Eckhart, Walter ; Eddy, Bernice E.; Kit, Saul; Levine, Arnold J.; Miles, John A. R.; Pagano, Joseph S.; Sachs, Leo, and Vonka, Vladimir: Papovaviridae Melnick, Joseph L., see Barahona, Hora-cio Melnick, Joseph L., see Chafrez, Ruben Melnick, Joseph L., see Seth, Pradeep 1-14 Menezes, José, see Klein, George Miles, John A. R., see Melnick, Joseph L Moroni, Christoph; Robert-Guroff, Marjorie, and Martin, Doris: Virion and non-virion murine leukemia membrane antigens: analysis with virus-absorbed antisera Murphy, Bert L.; Maynard, James E., and Le Bouvier, George L.: Viral subtypes and crossprotection in hepatitis B virus infections of chimpanzees Murphy, Frederick A. and Bauer, Sally P.: Early street rabies virus infection in striated muscle and later progression to the central nervous system Nakajima, Kunihiro; Ono, Katsuhiko, and Iτo, Yohei: Interconversion of molecular size of the DNA polymerase from Rauscher leukemia virus O Connor, Timothy E.; Schiop-Stansly, Pauline; Sethi, V. Sagar; Hadγdi, Ahmed, and Okano, Paul: Antiviral 395 antibiotics: inhibition of focus-formation in human or mouse cell cultures by sarcoma-inducing oncornaviruses with rifamycins Okano, Paul, see O Connor, Timothy E Ono, Katsuhiko, see Nakajima, Kunihiro Pagano, Joseph S., see Melnick, Joseph L Paschke, John D., see Wagner, Grant W Payment, Pierre, see Chagnon, Andre
4 Pereira, Helio G., see Fenner, Frank Pγzer, Lewis I., see Sasaki, Yukiko Porterfγeld, James S., see Fenner, Frank Porubel, Ludmila, see Ghendon, Y Rapp, Fred, see Seth, Pradeep 1-14 Rawls, William E., see Seth, Pradeep 1-14 Rawls, William E. see Spira, Gad Ripper, Leah W., see Tevethia, Mary J Robert-Guroff, Marjorie, see Moroni, Christoph Robinson, David J., see Kubo, Susumu Roy, Lucille, see Chagnon, Andre Rubensteγn, Fred E. and Ginsberg, Harold S.: Transformation characteristics of temperaturesensitive mutants of type 12adenovirus Sachs, Leo, see Melnick, Joseph L Sargent, Malcolm D., see Borsa, Joseph Sasaki, Ryuzo, see Sasaki, Yukiko Sasaki, Yukiko; Sasaki, Ryuzo; Cohen, Gary H., and Pγzer, Lewis I.: RNA polymerase activity and inhibition in herpesvirus-infected cells Schabel, Frank M., jr., see Shannon, William M Schaffer, Priscilla A., see Kimura, Susumu Schiop-Stansly, Pauline, see O Connor, Timothy E Schmitz, Herbert and Kraγnick-Rγë-chert, Christa Maria: Simple detection of fluorescent stained IgM in sucrose gradients: demonstration of virus-specific IgM Schuerch, Alfred R.; Matsuhisa Tadao, and Joklik, Wolfgang K.: Temperature-sensitive mutants of reovirus. VI. Mutant ts 447 and ts 556 particles that lack either one or two genome RNA segments Seth, Pradeep; Rawls, William E.; Duff, Ronald; Rapp, Fred; Adam, Ervin, and Melnick, Joseph L.: Antigenic differences between isolates of herpesvirus type Sethi, V. Sagar, see O Connor, Timothy E Shannon, William M.; Westbrook, Louise, and Schabel, Frank M., jr.: Inhibition of Gross murine leukemia virus replication by rifamycin SV and certain of its derivatives in vitro Spira, Gad; Estes, Mary K.; Dreesman, Gordon R.; Butel, Janet S., and Rawls, William E.: Papovavirus structural polypeptides: comparison of human and rabbit papilloma viruses with simian virus Sugden, Bill, see Klein, George Talas, Margarita and Butel, Janet S.: Infectious DNA-protein complex from cells productively infected with simian adenovirus SA Tevethia, Mary J.; Ripper, Leah W., and Tevethia, Satvir S.: A simple quali- 396 tative spot complementation test for temperature-sensitive mutants of SV Tevethia, Satvir S. and McMillan, Virginia L.: Acquisition of malignant properties by SV40 transformed mouse cells: relationship to type-c viral antigen expression
5 Tevethia, Satvir S., see Tevethia, Mary J Trγpier, Françoise; Braunwald, Jacqueline; Markovic, Ljubisa, and Kirn, Andre: Budding of frog virus 3 studied by immunological and cytochemical methods in electron microscopy Tuckova, Eva, see Anisimova, Ema Vertebrate Virus Subcommittee, International Committee on Taxonomy of Viruses: Family and generic names for viruses approved by the International Committee on Taxonomy of Viruses, June Vonka, Vladimir, see Anisimova, Ema Vonka, Vladimir, see Melnick, Joseph L Wagner, Grant W.; Paschke, John D.; Campbell, William R., and Webb, Stanley R.: Proteins of two strains of mosquito iridescent virus Webb, Stanley R., see Wagner, Grant W Westbrook, Louise, see Shannon, William M Wild, Fabian, see Brown, Fred Third International Congress for Virology: Announcement 200 Tobacco rattle virus, effect of phosphate on infected tobacco protoplasts 382 Togaviridae, - family and generic names taxonomy 193 Transcriptase activation, reovirus 15 Transcriptase activity, influenza virus 141 Transformation characteristics of tempera ture-sensitive mutants of type 12 adenovirus 170 Transformed bone marrow cells, reticulo-endotheliosis virus 342 Vertebrate viruses, taxonomy 193 Viral pathogenesis, street rabies virus 256 Viral proteins, papilloma virus 220 Viral RNA, poliovirus, inhibition of replication and synthesis in vitro 281 Virion and non-virion murine leukemia membrane antigens 292 Virus characterization, reticuloendothelio-sis virus transformed bone marrow cells 342 Virus-specific IgM antibodies, demonstration 353
Subject Index. Budding of frog virus 3, study by immunological and cytochemical methods in electron microscopy 305
Subject Index Adenovirus, simian adenovirus 7 infectious DNA-protein complex 54 Adenovirus type 12, transformation characteristics of temperature-sensitive mutants Antibody - hepatitis B subtypes in chimpanzees
More informationVIRUSES. 1. Describe the structure of a virus by completing the following chart.
AP BIOLOGY MOLECULAR GENETICS ACTIVITY #3 NAME DATE HOUR VIRUSES 1. Describe the structure of a virus by completing the following chart. Viral Part Description of Part 2. Some viruses have an envelope
More informationViruses. Properties. Some viruses contain other ingredients (e.g., lipids, carbohydrates), but these are derived from their host cells.
Viruses Properties They are obligate intracellular parasites. Probably there are no cells in nature that escape infection by one or more kinds of viruses. (Viruses that infect bacteria are called bacteriophages.)
More informationPHARMACEUTICAL MICROBIOLOGY JIGAR SHAH INSTITUTE OF PHARMACY NIRMA UNIVERSITY
PHARMACEUTICAL MICROBIOLOGY JIGAR SHAH INSTITUTE OF PHARMACY NIRMA UNIVERSITY VIRUS - HISTORY In 1886, the Dutch Chemist Adolf Mayer showed TMD In 1892, the Russian Bactriologist Dimtri Iwanowski isolate
More informationHistory of Virology. Russian Bacteriologist Dimitri Iwanowski TMD tobacco mosaic disease TMV isolated and purified
Viruses & Prions Viruses Virus miniscule, acellular, infectious agent having one or several pieces of either DNA or RNA No cytoplasmic membrane, cytosol, organelles Cannot carry out any metabolic pathway
More informationTranscription and RNA processing
Transcription and RNA processing Lecture 7 Biology W3310/4310 Virology Spring 2016 It is possible that Nature invented DNA for the purpose of achieving regulation at the transcriptional rather than at
More informationTranscription and RNA processing
Transcription and RNA processing Lecture 7 Biology 3310/4310 Virology Spring 2018 It is possible that Nature invented DNA for the purpose of achieving regulation at the transcriptional rather than at the
More information2) What is the difference between a non-enveloped virion and an enveloped virion? (4 pts)
Micro 260 SFCC Spring 2010 Name: All diagrams and drawings shall be hand drawn (do not photo-copied from a publication then cut and pasted into work sheet). Do not copy other student s answers. Para phase
More informationViruses Tomasz Kordula, Ph.D.
Viruses Tomasz Kordula, Ph.D. Resources: Alberts et al., Molecular Biology of the Cell, pp. 295, 1330, 1431 1433; Lehninger CD Movie A0002201. Learning Objectives: 1. Understand parasitic life cycle of
More informationvirology MCQs 2- A virus commonly transmitted by use of contaminated surgical tools & needles produces a disease called serum hepatitis.
virology MCQs 1- A virus which causes AIDS is: a- Small pox virus. b- Coxsackie B virus. c- Mumps virus. d- Rubella virus. e- HIV-III virus. 2- A virus commonly transmitted by use of contaminated surgical
More informationViruses. CLS 212: Medical Microbiology Miss Zeina Alkudmani
Viruses CLS 212: Medical Microbiology Miss Zeina Alkudmani History Through the 1800s, many scientists discovered that something smaller than bacteria could cause disease and they called it virion (Latin
More information1) understand the structure and life cycle of viruses as well as viral evolution. 2) know the mechanisms of host immune responses to viral infections
VIROLOGY A The course aims to provide the student with the cognitive and methodological tools necessary to: 1) understand the structure and life cycle of viruses as well as viral evolution 2) know the
More informationVIROLOGY PRINCIPLES AND APPLICATIONS WILEY. John B. Carter and Venetia A. Saunders
VIROLOGY PRINCIPLES AND APPLICATIONS John B. Carter and Venetia A. Saunders WILEY -urief Contents Preface to Second Edition xix Preface to First Edition xxi Abbreviations Used in This Book xxiii Greek
More informationNEUTRALIZATION OF REOVIRUS: THE GENE RESPONSIBLE FOR THE NEUTRALIZATION ANTIGEN* BY HOWARD L. WEINER~ AN~ BERNARD N. FIELDS
NEUTRALIZATION OF REOVIRUS: THE GENE RESPONSIBLE FOR THE NEUTRALIZATION ANTIGEN* BY HOWARD L. WEINER~ AN~ BERNARD N. FIELDS (From the Department of Microbiology and Molecular Genetics, Harvard Medical
More informationMONTGOMERY COUNTY COMMUNITY COLLEGE CHAPTER 13: VIRUSES. 1. Obligate intracellular parasites that multiply in living host cells
MONTGOMERY COUNTY COMMUNITY COLLEGE CHAPTER 13: VIRUSES I. CHARACTERISTICS OF VIRUSES A. General Characteristics 1. Obligate intracellular parasites that multiply in living host cells 2. Contain a single
More informationIntroduction to viruses. BIO 370 Ramos
Introduction to viruses BIO 370 Ramos 1 2 General Structure of Viruses Size range most
More informationVIRUSES AND CANCER Michael Lea
VIRUSES AND CANCER 2010 Michael Lea VIRAL ONCOLOGY - LECTURE OUTLINE 1. Historical Review 2. Viruses Associated with Cancer 3. RNA Tumor Viruses 4. DNA Tumor Viruses HISTORICAL REVIEW Historical Review
More informationVirus. Landmarks in Virology. Introduction to Virology. Landmarks in Virology. Definitions. Definitions. Latin for slimy liquid or poison
Landmarks in Virology Introduction to Virology Scott M. Hammer, M.D. Introduction of concept of filterable agents for plant pathogens (Mayer, Ivanofsky, Beijerinck in late 1880 s) First filterable agent
More informationThe Viruses CATALOGUE, CHARACTERIZATION, AND CLASSIFICATION
The Viruses CATALOGUE, CHARACTERIZATION, AND CLASSIFICATION THE VIRUSES Series Editors HEINZ FRAENKEL-CONRAT, University of California Berkeley, California ROBERT R. WAGNER, University of Vizginia School
More informationGeneral Virology I. Dr Esam Ibraheem Azhar (BSc, MSc, Ph.D Molecular Medical Virology) Asst. Prof. Medical Laboratory Technology Department
General Virology I Dr Esam Ibraheem Azhar (BSc, MSc, Ph.D Molecular Medical Virology) Asst. Prof. Medical Laboratory Technology Department ١ General Virology I Lecture Outline Introduction istory Definition
More informationEpstein-Barr Virus: Stimulation By 5 '-Iododeoxy uridine or 5 '-Brom odeoxy uridine in Human Lymphoblastoid Cells F ro m a Rhabdom yosarcom a*
A n n a ls o f C l i n i c a l L a b o r a t o r y S c i e n c e, Vol. 3, No. 6 Copyright 1973, Institute for Clinical Science Epstein-Barr Virus: Stimulation By 5 '-Iododeoxy uridine or 5 '-Brom odeoxy
More informationChair of Medical Biology, Microbiology, Virology, and Immunology STRUCTURE, CLASSIFICATION AND PHYSIOLOGY OF VIRUSES
Chair of Medical Biology, Microbiology, Virology, and Immunology STRUCTURE, CLASSIFICATION AND PHYSIOLOGY OF VIRUSES Viruses are small obligate intracellular parasites, which by definition contain either
More informationChapter 25. 바이러스 (The Viruses)
Chapter 25 바이러스 (The Viruses) Generalized Structure of Viruses 2 2 Virus Classification Classification based on numerous characteristics Nucleic acid type Presence or absence of envelope Capsid symmetry
More informationBacteriophage Reproduction
Bacteriophage Reproduction Lytic and Lysogenic Cycles The following information is taken from: http://student.ccbcmd.edu/courses/bio141/lecguide/unit3/index.html#charvir Bacteriophage Structure More complex
More informationMedical Virology. Herpesviruses, Orthomyxoviruses, and Retro virus. - Herpesviruses Structure & Composition: Herpesviruses
Medical Virology Lecture 2 Asst. Prof. Dr. Dalya Basil Herpesviruses, Orthomyxoviruses, and Retro virus - Herpesviruses Structure & Composition: Herpesviruses Enveloped DNA viruses. All herpesviruses have
More informationIntroduction to Virology. Landmarks in Virology
Introduction to Virology Scott M. Hammer, M.D. Landmarks in Virology Introduction of concept of filterable agents for plant pathogens (Mayer, Ivanofsky, Beijerinck in late 1880 s) First filterable agent
More informationViruses, Viroids, and Prions
PowerPoint Lecture Presentations prepared by Bradley W. Christian, McLennan Community College C H A P T E R 13 Viruses, Viroids, and Prions General Characteristics of Viruses Obligatory intracellular parasites
More informationBasic Properties of Viruses and Virus Cell Interaction
WBV5 6/27/03 10:28 PM Page 49 Basic Properties of Viruses and Virus Cell Interaction II PART VIRUS STRUCTURE AND CLASSIFICATION CLASSIFICATION SCHEMES THE BEGINNING AND END OF THE VIRUS REPLICATION CYCLE
More informationViruses. Rotavirus (causes stomach flu) HIV virus
Viruses Rotavirus (causes stomach flu) HIV virus What is a virus? A virus is a microscopic, infectious agent that may infect any type of living cell. Viruses must infect living cells in order to make more
More informationNucleic acid: singled stranded, double stranded, RNA, or DNA, linear or circular. Capsid: protein coat that is most of the mass of the virus.
Viruses General Characteristics of Viruses 1. Depending on view may be regarded as exceptionally complex aggregates of nonliving chemicals or as exceptionally simple living microbes. 2. Contain a single
More informationD. J. Dargan,* C. B. Gait and J. H. Subak-Sharpe
Journal of General Virology (1992), 73, 407-411. Printed in Great Britain 407 The effect of cicloxolone sodium on the replication in cultured cells of adenovirus type 5, reovirus type 3, poliovirus type
More informationSize nm m m
1 Viral size and organization Size 20-250nm 0.000000002m-0.000000025m Virion structure Capsid Core Acellular obligate intracellular parasites Lack organelles, metabolic activities, and reproduction Replicated
More informationnumber Done by Corrected by Doctor Ashraf
number 4 Done by Nedaa Bani Ata Corrected by Rama Nada Doctor Ashraf Genome replication and gene expression Remember the steps of viral replication from the last lecture: Attachment, Adsorption, Penetration,
More informationالحترمونا من خري الدعاء
الحترمونا من خري الدعاء Instructions for candidates The examination consists of 30 multiple choice questions, each divided into 5 different parts. Each part contains a statement which could be true or
More informationHow could the small size of viruses have helped researchers detect viruses before the invention of the electron microscope? 13-1
3 4 5 6 7 8 9 0 3 4 5 6 Chapter 3 Viruses, Viroids, and Prions General Characteristics of Viruses General Characteristics of Viruses Obligatory intracellular parasites Contain DNA or RNA Contain a protein
More information19 Viruses BIOLOGY. Outline. Structural Features and Characteristics. The Good the Bad and the Ugly. Structural Features and Characteristics
9 Viruses CAMPBELL BIOLOGY TENTH EDITION Reece Urry Cain Wasserman Minorsky Jackson Outline I. Viruses A. Structure of viruses B. Common Characteristics of Viruses C. Viral replication D. HIV Lecture Presentation
More informationLecture 5 (Ch6) - Viruses. Virus Characteristics. Viral Host Range
Lecture 5 (Ch6) - Viruses Topics Characteristics Structure/Classification Multiplication Cultivation and replication Non-viral infectious agents Treatment 1 Virus Characteristics obligate intracellular
More informationWednesday, October 19, 16. Viruses
Viruses Image of an animal cell More realistic size of a virus compared to an animal cell Cells can fulfill all characteristics of life Viruses on their own can be considered lifeless chemicals, unless?
More informationLab 3: Pathogenesis of Virus Infections & Pattern 450 MIC PRACTICAL PART SECTION (30397) MIC AMAL ALGHAMDI 1
Lab 3: Pathogenesis of Virus Infections & Pattern 450 MIC PRACTICAL PART SECTION (30397) 2018 450 MIC AMAL ALGHAMDI 1 Learning Outcomes The pathogenesis of viral infection The viral disease pattern Specific
More informationViral reproductive cycle
Lecture 29: Viruses Lecture outline 11/11/05 Types of viruses Bacteriophage Lytic and lysogenic life cycles viruses viruses Influenza Prions Mad cow disease 0.5 µm Figure 18.4 Viral structure of capsid
More informationLaboratory Diagnosis of Viral Infections. G. Jamjoom 2005
Laboratory Diagnosis of Viral Infections G. Jamjoom 2005 Five Main Techniques: Virus Culture and Isolation Serology Rapid Detection of Viral Antigens Detection of Viral Nucleic Acid Electron Microscopy
More informationIn Vitro and In Vivo Studies with Epstein-Barr
A n n a l s o f C l i n i c a l L a b o r a t o r y S c i e n c e, Vol. 3, No. 6 Copyright 1973, Institute for Clinical Science In Vitro and In Vivo Studies with Epstein-Barr Virus (EBV)-------A Review
More informationVirus Basics. General Characteristics of Viruses. Chapter 13 & 14. Non-living entities. Can infect organisms of every domain
Virus Basics Chapter 13 & 14 General Characteristics of Viruses Non-living entities Not considered organisms Can infect organisms of every domain All life-forms Commonly referred to by organism they infect
More informationVirology Introduction. Definitions. Introduction. Structure of virus. Virus transmission. Classification of virus. DNA Virus. RNA Virus. Treatment.
DEVH Virology Introduction Definitions. Introduction. Structure of virus. Virus transmission. Classification of virus. DNA Virus. RNA Virus. Treatment. Definitions Virology: The science which study the
More informationGenomes and Genetics
Genomes and Genetics Lecture 3 Biology W3310/4310 Virology Spring 2016...everywhere an interplay between nucleic acids and proteins; a spinning wheel in which the thread makes the spindle and the spindle
More informationJ. A. Sands, 21 October 2013 Lehigh University
J. A. Sands, 21 October 2013 Lehigh University Cryptococcus, Candidiasis, Aspergillosis Tuberculosis Cholera Plague Bact. Meningitis Salmonella Listeria Leptospirosis Staph. (MRSA) E. coli Clostridium
More informationHistory electron microscopes
Viruses History Through the 1800s, many scientists discovered that something smaller than bacteria could cause disease and they called it virion (Latin word- poison) In the 1930s, after the invention of
More informationVIRUSES. Biology Applications Control. David R. Harper. Garland Science Taylor & Francis Group NEW YORK AND LONDON
VIRUSES Biology Applications Control David R. Harper GS Garland Science Taylor & Francis Group NEW YORK AND LONDON vii Chapter 1 Virus Structure and 2.2 VIRUS MORPHOLOGY 26 Infection 1 2.3 VIRAL CLASSIFICATION
More informationPart I. Content: History of Viruses. General properties of viruses. Viral structure. Viral classifications. Virus-like agents.
Viruses Part I Content: History of Viruses. General properties of viruses. Viral structure. Viral classifications. Virus-like agents. History Through the 1800s, many scientists discovered that something
More informationSTRUCTURE, GENERAL CHARACTERISTICS AND REPRODUCTION OF VIRUSES
STRUCTURE, GENERAL CHARACTERISTICS AND REPRODUCTION OF VIRUSES Introduction Viruses are noncellular genetic elements that use a living cell for their replication and have an extracellular state. Viruses
More information19/06/2013. Viruses are not organisms (do not belong to any kingdom). Viruses are not made of cells, have no cytoplasm, and no membranes.
VIRUSES Many diseases of plants and animals are caused by bacteria or viruses that invade the body. Bacteria and viruses are NOT similar kinds of micro-organisms. Bacteria are classified as living organisms,
More informationStructure of viruses
Antiviral Drugs o Viruses are obligate intracellular parasites. o lack both a cell wall and a cell membrane. o They do not carry out metabolic processes. o Viruses use much of the host s metabolic machinery.
More informationChapter 6- An Introduction to Viruses*
Chapter 6- An Introduction to Viruses* *Lecture notes are to be used as a study guide only and do not represent the comprehensive information you will need to know for the exams. 6.1 Overview of Viruses
More informationVirus Basics. General Characteristics of Viruses 5/9/2011. General Characteristics of Viruses. Chapter 13 & 14. Non-living entities
Virus Basics Chapter 13 & 14 General Characteristics of Viruses Non-living entities Not considered organisms Can infect organisms of every domain All life-formsf Commonly referred to by organism they infect
More informationعلم األحياء الدقيقة Microbiology Introduction to Virology & Immunology
علم األحياء الدقيقة Microbiology Introduction to Virology & Immunology What is a virus? Viruses may be defined as acellular organisms whose genomes consist of nucleic acid (DNA or RNA), and which obligatory
More informationAP Biology. Viral diseases Polio. Chapter 18. Smallpox. Influenza: 1918 epidemic. Emerging viruses. A sense of size
Hepatitis Viral diseases Polio Chapter 18. Measles Viral Genetics Influenza: 1918 epidemic 30-40 million deaths world-wide Chicken pox Smallpox Eradicated in 1976 vaccinations ceased in 1980 at risk population?
More informationLEC 2, Medical biology, Theory, prepared by Dr. AYAT ALI
General Characteristics, Structure and Taxonomy of Viruses Viruses A virus is non-cellular organisms made up of genetic material and protein that can invade living cells. They are considered both a living
More informationDr. Ahmed K. Ali. Outcomes of the virus infection for the host
Lec. 9 Dr. Ahmed K. Ali Outcomes of the virus infection for the host In the previous few chapters we have looked at aspects of the virus replication cycle that culminate in the exit of infective progeny
More informationOverview of virus life cycle
Overview of virus life cycle cell recognition and internalization release from cells progeny virus assembly membrane breaching nucleus capsid disassembly and genome release replication and translation
More informationViral vaccines. Lec. 3 أ.د.فائزة عبد هللا مخلص
Lec. 3 أ.د.فائزة عبد هللا مخلص Viral vaccines 0bjectives 1-Define active immunity. 2-Describe the methods used for the preparation of attenuated live & killed virus vaccines. 3- Comparison of Characteristics
More informationCoronaviruses cause acute, mild upper respiratory infection (common cold).
Coronaviruses David A. J. Tyrrell Steven H. Myint GENERAL CONCEPTS Clinical Presentation Coronaviruses cause acute, mild upper respiratory infection (common cold). Structure Spherical or pleomorphic enveloped
More informationReoviruses. Virion. Genome. Genes and proteins. Viruses and hosts. Diseases. Distinctive characteristics
Reoviruses Virion Genome Genes and proteins Viruses and hosts Diseases Distinctive characteristics Virion Naked icosahedral capsid (T=13), diameter 60-85 nm Capsid consists of two or three concentric protein
More informationAntiviral Drugs Lecture 5
Antiviral Drugs Lecture 5 Antimicrobial Chemotherapy (MLAB 366) 1 Dr. Mohamed A. El-Sakhawy 2 Introduction Viruses are microscopic organisms that can infect all living cells. They are parasitic and multiply
More informationB19, see Parvovirus B19 Bone marrow, gene transfer with parvovirus. Erythrovirus, see Parvovirus B19, Simian parvovirus
... Subject Index Adeno-associated virus Cap and genome encapsidation 87 DNA integration homologous recombination 90, 91 latency vs replication 77, 78 mechanism 79 requirements 78, 79 site in human genome
More informationSome living things are made of ONE cell, and are called. Other organisms are composed of many cells, and are called. (SEE PAGE 6)
Section: 1.1 Question of the Day: Name: Review of Old Information: N/A New Information: We tend to only think of animals as living. However, there is a great diversity of organisms that we consider living
More informationVirology. *Viruses can be only observed by electron microscope never by light microscope. The size of the virus: nm in diameter.
Virology We are going to start with general introduction about viruses, they are everywhere around us; in food; within the environment; in direct contact to etc.. They may cause viral infection by itself
More informationViral Pathogenesis. Pathogenesis: the process by which one organism causes disease in another Two components of viral disease:
Viral Pathogenesis Pathogenesis: the process by which one organism causes disease in another Two components of viral disease: Effects of virus replication on the host Effects of host response on virus
More informationSection 1 Individual viruses. Introduction to virology. History of viruses. Viral taxonomy
Section 1 Individual viruses Introduction to virology History of viruses The existence of viruses was first suspected in the nineteenth century when it was shown that filtered extract of infective material
More informationReplication Defective Enterovirus Infections: Implications for Type I Diabetes
Replication Defective Enterovirus Infections: Implications for Type I Diabetes N. M. Chapman Department of Pathology & Microbiology University of Nebraska Medical Center Enterovirus Genome and 2 Capsid
More informationOverview: Chapter 19 Viruses: A Borrowed Life
Overview: Chapter 19 Viruses: A Borrowed Life Viruses called bacteriophages can infect and set in motion a genetic takeover of bacteria, such as Escherichia coli Viruses lead a kind of borrowed life between
More informationViruses and Prions (Chapter 13) Lecture Materials for Amy Warenda Czura, Ph.D. Suffolk County Community College Eastern Campus
Viruses and Prions (Chapter 13) Lecture Materials for Amy Warenda Czura, Ph.D. Suffolk County Community College Eastern Campus Primary Source for figures and content: Tortora, G.J. Microbiology An Introduction
More informationOncolytic virus strategy
Oncolytic viruses Oncolytic virus strategy normal tumor NO replication replication survival lysis Oncolytic virus strategy Mechanisms of tumor selectivity of several, some of them naturally, oncolytic
More informationHuman Genome Complexity, Viruses & Genetic Variability
Human Genome Complexity, Viruses & Genetic Variability (Learning Objectives) Learn the types of DNA sequences present in the Human Genome other than genes coding for functional proteins. Review what you
More informationNucleic acid Strands Family Example Accession Base pairs
Table 16.1 Classification of viruses based on nucleic acid composition. Note that NCBI BioProject accessions begin PRJNA and typically encompass several segments. Adapted from Schaechter et al. (1999)
More informationLESSON 4.4 WORKBOOK. How viruses make us sick: Viral Replication
DEFINITIONS OF TERMS Eukaryotic: Non-bacterial cell type (bacteria are prokaryotes).. LESSON 4.4 WORKBOOK How viruses make us sick: Viral Replication This lesson extends the principles we learned in Unit
More informationLecture # 1: Course Introduction
Lecture # 1: Course Introduction I. Instructor and Background Dr. Richard Kuhn rjkuhn@bragg.bio.purdue.edu B-129 Lilly Hall 494-1164 Office Hours - Wednesday 10:30-11:30 II. Objective: To use viruses as
More information2.1 VIRUSES. 2.1 Learning Goals
2.1 VIRUSES 2.1 Learning Goals To understand the structure, function, and how Viruses replicate To understand the difference between Viruses to Prokaryotes and Eukaryotes; namely that viruses are not classified
More informationVirion Genome Genes and proteins Viruses and hosts Diseases Distinctive characteristics
Hepadnaviruses Virion Genome Genes and proteins Viruses and hosts Diseases Distinctive characteristics Hepatitis viruses A group of unrelated pathogens termed hepatitis viruses cause the vast majority
More informationChapters 21-26: Selected Viral Pathogens
Chapters 21-26: Selected Viral Pathogens 1. DNA Viral Pathogens 2. RNA Viral Pathogens 1. DNA Viral Pathogens Smallpox (pp. 623-4) Caused by variola virus (dsdna, enveloped): portal of entry is the respiratory
More informationIntroductory Virology. Ibrahim Jamfaru School of Medicine UHAS
Introductory Virology Ibrahim Jamfaru School of Medicine UHAS Lecture outline Definition of viruses and general characteristics Structure of virus (virion) Chemical composition of viruses Virus morphology
More informationFormation of an Infectious Virus-Antibody Complex with Rous
JOURNAL OF VIROLOGY, Mar. 1976, p. 163-167 Copyright 1976 American Society for Microbiology Vol. 17, No. 3 Printed in U.S.A. Formation of an Infectious Virus-Antibody Complex with Rous Sarcoma Virus and
More informationCONTENTS. 1. Introduction. 4. Virology. 2. Virus Structure. 5. Virus and Medicine. 3. Virus Replication. 6. Review
CONTENTS 1. Introduction 4. Virology 2. Virus Structure 5. Virus and Medicine 3. Virus Replication 6. Review We have all gotten viruses from bacteria, plants to animals. Viruses cause colds, flu, warts
More informationIII. What are the requirements for taking and passing this course?
1 Molecular Virology Lecture # 1: Course Introduction I. Instructor and Background Dr. Richard Kuhn rjkuhn@bragg.bio.purdue.edu B-129 Lilly Hall 494-1164 Office Hours - Wednesday 10:30-11:30 II. Objective:
More informationChapter 19: Viruses. 1. Viral Structure & Reproduction. 2. Bacteriophages. 3. Animal Viruses. 4. Viroids & Prions
Chapter 19: Viruses 1. Viral Structure & Reproduction 2. Bacteriophages 3. Animal Viruses 4. Viroids & Prions 1. Viral Structure & Reproduction Chapter Reading pp. 393-396 What exactly is a Virus? Viruses
More informationLast time we talked about the few steps in viral replication cycle and the un-coating stage:
Zeina Al-Momani Last time we talked about the few steps in viral replication cycle and the un-coating stage: Un-coating: is a general term for the events which occur after penetration, we talked about
More informationGeneral Properties of Viruses
1 I. Viruses as Agents of Disease. V. F. Righthand, Ph.D. August 15, 2001 General Properties of Viruses Viruses can infect every form of life. There are hundreds of different viruses that can produce diseases
More informationChapter 18. Viral Genetics. AP Biology
Chapter 18. Viral Genetics 2003-2004 1 A sense of size Comparing eukaryote bacterium virus 2 What is a virus? Is it alive? DNA or RNA enclosed in a protein coat Viruses are not cells Extremely tiny electron
More informationAseptic meningitis: inflammation of meninges with sterile CSF (without any causative organisms which can be grown on culture media).
You have to refer to the slides, since I have included the extra information only. Slide #1: Both illnesses aseptic meningitis and encephalitis can be caused by the same viruses; that viruses which cause
More informationClinical Aspect and Application of Laboratory Test in Herpes Virus Infection. Masoud Mardani M.D,FIDSA
Clinical Aspect and Application of Laboratory Test in Herpes Virus Infection Masoud Mardani M.D,FIDSA Shahidhid Bh BeheshtiMdi Medical lui Universityit Cytomegalovirus (CMV), Epstein Barr Virus(EBV), Herpes
More informationSECTION 25-1 REVIEW STRUCTURE. 1. The diameter of viruses ranges from about a. 1 to 2 nm. b. 20 to 250 nm. c. 1 to 2 µm. d. 20 to 250 µm.
SECTION 25-1 REVIEW STRUCTURE VOCABULARY REVIEW Define the following terms. 1. virus 2. capsid 3. retrovirus 4. viroid 5. prion MULTIPLE CHOICE Write the correct letter in the blank. 1. The diameter of
More informationLesson 4. Molecular Virology
Lesson 4 Molecular Virology 1. Introduction 1.1. Virus Definition Genetic elements made of living matter molecules, that are capable of growth and multiplication only in living cells DIFFERENCE WITH RESPECT
More informationPre-Assessment Review: Microbiology, Part 2: Virology. Dr. David Hillyard
Pre-Assessment Review: Microbiology, Part 2: Virology Dr. David Hillyard 1. Mutations or deletions within which gene are associated with the hyper-toxin producing strain of Clostridium difficile? a. tcda
More informationProduction of Interferon Alpha by Dengue Virus-infected Human Monocytes
J. gen. Virol. (1988), 69, 445-449. Printed in Great Britain 445 Key words: IFN-ct/dengue virus/monocytes Production of Interferon Alpha by Dengue Virus-infected Human Monocytes By ICHIRO KURANE AND FRANCIS
More informationBIOLOGICAL DIVERSITY: VIRUSES
BIOLOGICAL DIVERSITY: VIRUSES Viruses: a Group of Intracellular Parasites In the 19th century, many rabies cases plagued Europe. In London, for example, 29 deaths by "hydrophobia" were enumerated in the
More informationViruses. Objectives At the end of this sub section students should be able to:
Name: 3.5 Responses to Stimuli Objectives At the end of this sub section students should be able to: 3.5.4 Viruses 1. Explain the problem of defining what a virus is - living or non-living? 2. show you
More informationViruses. An Illustrated Guide to Viral Life Cycles to Accompany Lecture. By Noel Ways
Viruses An Illustrated Guide to Viral Life Cycles to Accompany Lecture By Noel Ways Viral Life Cycle Step #1, Adhesion: During adhesion, specific receptors for specific molecules on potential host cell
More informationReverse transcription and integration
Reverse transcription and integration Lecture 9 Biology 3310/4310 Virology Spring 2018 One can t believe impossible things, said Alice. I dare say you haven t had much practice, said the Queen. Why, sometimes
More informationSchedule of Accreditation issued by United Kingdom Accreditation Service 2 Pine Trees, Chertsey Lane, Staines-upon-Thames, TW18 3HR, UK
2 Pine Trees, Chertsey Lane, Staines-upon-Thames, TW18 3HR, UK West of Scotland Specialist Virology Centre New Lister Building Level 5 Glasgow Royal Infirmary 10-16 Alexandra Parade Glasgow G31 2ER Contact:
More informationViral Pathogenesis. Respiratory tract. Alimentary tract
Viral Pathogenesis Pathogenesis: the process by which one organism causes disease in another Two components of viral disease: Effects of virus replication on the host Effects of host response on virus
More informationRespiratory tract. Alimentary tract MID 31. Pathogenesis: the process by which one organism causes disease in another Two components of viral disease:
Viral Pathogenesis Prof. Vincent Racaniello Department of Microbiology Office: HHSC 1310B vrr1@columbia.edu Respiratory tract Most common route of viral entry Absorptive area of lung: 140 m 2 ; ventilation
More information