Viruses  What are they? and  What are they good for? (ebiomedia.com) (conference.eicar.org)

Slides:

Advertisements

Similar presentations

Viruses (Ch. 18).

Advertisements

F3 Microbes and biotechnology

Max Sanam.  Understand stages in animal virus replication  Compare and contrast the multiplication cycle of DNA and RNA-containing animal viruses 

Viruses of Bacteria Chapter 13. General Characteristics of Viruses Non-living entities Not considered organisms Can infect organisms of every domain All.

Eukaryotic Viruses Taxonomy characters: nucleic acid type; enveloped or naked; capsid shape; assembly site in host (nucleus or cytoplasm)

Viruses: Bacterial and Animal Types

Viruses, part 2.

Viruses.  What is a virus? Defined by their inability to replicate/multiply without utilizing a host cells reproductive mechanisms. Only contain ONE.

VIRAL REPLICATION Dr AYMAN JOHARGY 3 rd Year Medicine Clinical Microbiology 2 nd Semester Lecture 2 3 rd Year Medicine Clinical Microbiology 2 nd Semester.

BIOLOGY CONCEPTS & CONNECTIONS Fourth Edition Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings Neil A. Campbell Jane B. Reece Lawrence.

Associate professor in microbiology

An Introduction to the Viruses

Viruses: a kind of “borrowed life” HIV infected T-cell.

REPLICATION OF THE VIRUS

Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings Figure

1 What are Viruses? Obligate intracellular parasites Viral components –Nucleic acids –Capsid –Envelope.

Viruses Viral Structure Growing (Cultivating) Prokaryote Types Eukaryote Types Obligate Intracellular Parasites: Require living host cell in order to replicate.

Viral Life Cycles & Viruses

Viruses Disease causing agents. Viruses Can multiply only in cells and which, by virtue of their tiny size can pass through filters that hold back even.

Viruses. Virus: Particles of nucleic acid, protein, some lipids Reproduce vicariously Use the cells they infect to build new viruses.

Viruses Where do they fit?. What are Viruses? bacteria and viruses cause many diseases for all kingdoms; however, bacteria are classified as living while.

Branches of Microbiology Bacteriology Virology Mycology Parasitology Immunology Recombinant DNA technology.

Plate 36 Retroviruses.

Bacteria and Viruses Bacteria and viruses are often lumped together into one group by the general public as “things that make you sick”. Even so, bacteria.

Microbiology- a clinical approach by Anthony Strelkauskas et al Chapter 12: The structure and infection cycle of viruses.

Copyright © 2008 Pearson Education Inc., publishing as Pearson Benjamin Cummings Unit 4 Proteins Transcription (DNA to mRNA) Translation (mRNA to tRNA.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display The Steps in HIV Replication Slide number 1 (1) Viral.

What are three different types of viral capsids?.

Viruses. Nonliving particles Very small (1/2 to 1/100 of a bacterial cell) Do not perform respiration, grow, or develop Are able to replicate (only with.

Chapter 27 Viruses Joe Ganoe Jesus Trochez. Types of Viruses Plant Virus – Helical capsid shape Animal Virus – Icosahedral capsid Bacterial Virus – Icosahedral.

Biology 331 Virology I Recall - non-cellular, obligate intracellular parasites.

The Viruses January 14 th, Virus Basics Viruses are nucleic acid and protein structures Very small; typically between nm No cellular structures.

Genetics of Viruses.

Medical Microbiology Chapter 6 Viral Classification, Structure, and Replication.

Infectious Diseases Unit 4 Lesson 4 plan. Do now What are the two ways a pathogen causes damage?

Microbiology Ch 17.1: Viruses 17.2: Monera. Virus: A non- cellular particle made up of genetic material and protein that can invade cells.

Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings Attachment, Penetration, and Uncoating Figure

Viruses. Nonliving particles Very small (1/2 to 1/100 of a bacterial cell) Do not perform respiration, grow, or develop Are able to replicate (only with.

Viral Genetics and Replication SAMUEL AGUAZIM, M.D.

Viruses Mader-Chapter 21.

Chapter What is a virus? A virus is nucleic acid wrapped in a protein coat Can be DNA or RNA Viruses are considering nonliving because they can’t.

Chapter 19.  Non-living ◦ Non-cellular ◦ Cannot grow or reproduce on its own ◦ No metabolism  Cause disease ◦ AIDS, colds, flu, measles, mono  Cause.

Infectious Diseases Unit 4 Lesson 4 plan. Do now What are the two ways a pathogen causes damage?

Viruses Characteristics, Structures, Types, and Replication.

 Virus: A biological particle composed of nucleic acid and protein  Intracellular Parasites: organism that must “live” inside a host.

Reverse Transcription. POINT > Describe the process of reverse transcription POINT > Discuss the role of reverse transcription in retroviral infection.

MICROBIOLOGIA GENERALE

Two Cycles and A Bit of Review Remember that viruses are not able to reproduce on their own. They rely on a ‘host cell’ for reproduction In the Lytic Cycle.

VIRUSES. The Genetics of Viruses  (L) poison  First identified by Stanley in Tobacco Mosaic Virus  A genome w/in a protective coat.

Viruses Chapter 19. Discovery of Viruses 1883 – Aldof Mayer Discovers tobacco mosaic disease can be transferred plant to plant 1893 – Dimitri Ivanovsky.

19.09 Replication of HIV Slide number: 1

Virus Replication John Goulding, Imperial College London, UK

Viruses MARCUS MEHTA.

Plate 32 Viral Replication.

Virology Introduction Viral Structure Bacteriophage Replication

Agustina Setiawati, M.Sc., Apt

What living things do you see in this photo?

VIRAL GENE EXPRESSION DR.SOBIA MANZOOR LECTURE 05.

Viruses Dead or alive?.

Viruses Viruses – are segments of nucleic acids

Chapter 15 Viruses, Viral Life Cycles, Retroviruses.

Viruses Chapter 19.

Biotechnology Part 1 Genetics of Viruses

Viruses Dead or alive?.

Biotechnology Part 1 Genetics of Viruses

Unit 2: Organisms and Evolution Advanced Higher Biology Miss Aitken

Presentation transcript:

Viruses  What are they? and  What are they good for? (ebiomedia.com) (conference.eicar.org)

Structure of a virion RNA or DNA Protien capsid Icosahedral structure ( Nucleo- capsid ( Lipid bilayer Membrane protien

Life Cycle of a Virus Attachment Penetration Uncoating Replication & Expression Assembly Release

 Membrane or capsid proteins bond to cell receptors Attachment Penetration Uncoating Replication & Expression Assembly Release

 Permeation or  Injection of the genome or  Naked capsid swalllowed by the cell membrane or  Envelope integrated into cell membrane or  …. Attachment Penetration Uncoating Replication & Expression Assembly Release

 Capsid breaks  Genome and enzymes released. Attachment Penetration Uncoating Replication & Expression Assembly Release

 Viral genome replicated  Host cell mechanisms  Carry-along mechanisms  Protiens synthesized (Inhibition, Structure, Replication)  Host cell mechanisms Attachment Penetration Uncoating Replication & Expression Assembly Release

Virion assembled  In the cytoplasm  In the nucleus  At the cell membrane Attachment Penetration Uncoating Replication & Expression Assembly Release

Release of new viruses  Cell ruptures  Cell dies and membrane disolves  Virus ”buds” from the membrane Attachment Penetration Uncoating Replication & Expression Assembly Release

Example: Life cycle of a retrovirus Redisplayed without permission from W.H. Freeman publishing,

Viruses helps research into…  DNA replication  mRNA synthesis, translation and regulation  DNA replication  Polyproteins  Intracellular transport  Membrane formation  Cell transformation And of course…  Gene therapy and cloning (vectors)

The Central Dogma Baltimore and Temin: ”How can retroviruses cause cancer?” DNA RNAProteins

Baltimore & Temin Nobel Prize in Medicine or Physiology 1975  Retrovirus replication: ”Reverse transcriptase” Viral RNA → DNA Viral RNA → DNA Photos reproduced without kind permission from DNA RNAProteins The Central Dogma

Gene therapy  A ”viral vector” inserts genome into cells with defective genes.  Random integration  Swapping  Repairing  Regulation  Potential to treat deseases such as Cystic Fibrosis, Parkinsons, Alzheimers and cancers.

Gene Therapy Problems  Effects last for only 2-3 weeks  Immune response  Damages of random integration  Multigene disorders  Hard to produce viruses

Gene Therapy Research under way  Viruses that insert there genome at a specific location  A 47th chromosome  Vesicles carrying DNA