Chapter 19 - Viruses Flashcards
viruses
infectious particles consisting of genes packaged in a protein coat (nucleic acid enclosed in protein coat and/or memranous envelope)
bacteriophages
infect/genetically takeover bacteria (e. coli)
- most complex capsids
- elongated capsid head that encloses their DNA
- protein tail attaches to host and injects phage DNA
viral envelopes
surround capsids of influenza viruses and other animal viruses
- contain combination of viral and host cell molecules
- viral glycoproteins bind to host cell surface receptors
viral genomes
consists of single/double stranded DNA/RNA
- either linear or circular molecule of nucleic acid
- 3 to 1000+ genes contained
viral replicative cycle (3.5 steps)
- virus enters (uncoated), releasing viral DNA and capsid proteins
- host enzymes replicate viral genome
- host enzymes transcribe viral genome into viral mRNA (host ribosomes to make more capsid proteins)
- viral genomes and capsid proteins self-assemble into new viruses
lytic cycle
lyses host cell, releasing progeny virus particles
- phage in lytic is a virulent phage
- virulent phages break open cell wall, killing the host
lytic cycle steps (5)
- attachment of protein tail to cell wall
- entry of phage DNA and degradation of host DNA
- synthesis of viral genomes and proteins
- phage self-assembly (head, tail, tail fibres)
- release of phages
lysogenic cycle
replicates phase genome without destroying the host
- phage in lyso is prophage
- prophages incorporate into host cell’s chromosome (integrated viral DNA)
- environmental signal can trigger virus genome to exit and switch to lytic mode
lysogenic with lytic cycle correlation (3 steps)
- daughter cell with prophage can exit bacterial chromosome and initiate lytic cycle
- phage DNA integrates into bacterial chromosome becoming a prophage
- bacterium reproduces normally, copying prophage and transmitting it to daughter cells (many cell divisions produce bacteria infected with prophage)
bacterial defences against phages
- restriction enzymes degrade foreign (phage) DNA
2. CRISPR-cas system protects bacterial cells from phage infection
retrovirus
use reverse transcriptase (RNA to DNA) to copy their RNA genome into DNA (HIV is retrovirus that causes AIDS)
vaccines
pathogenic microbes that stimulate the immune system and mount defences against pathogen (prevent illness from virus)
-antiviral drugs can treat (not cure) viral infections, antibiotics can not
emerging viruses
viral strains jump species (animal to human), exchange genetic information with other viruses to which human have no immunity
CRISPR-cas system (4 steps)
- phage infection triggers transcription of CRISPR region
- RNA transcript is processed into strands and binds to cas protein
- RNA binds to DNA from invading phage and cas protein cuts phage DNA
- phage DNA is degraded and can no longer be used
replicative cycle of enveloped RNA virus (7 steps)
- glycoproteins of virus bind to receptors on host cell and enter
- capsid is digested by cellular enzymes and releases viral genome
- viral genome is a template for synthesis of RNA strands by a viral polymerase
- new viral genome copies made using complementary RNA strands as templates
- strands function as mRNA, translated into capsids proteins and glycoproteins (viral envelope)
- vesicles take glycoproteins to plasma membrane while capsid assembles around viral genome molecules
- new viruses bud from cell membrane where glycoproteins embed the viral membrane
