Week 6

Question 1

How do viruses impact genetic change in hosts?

Answer 1

Within an individual (acquired immunity)
Within a population (MHC/HLA)
During evolution (retroviruses)

Question 2

What is an overview of the life and structure of viruses?

Answer 2

Viruses are protein boxes (large number of capsids joined together) that transport genome from one cell to another
Viruses are obligate intracellular parasites

Question 3

How impactful of viruses?

Answer 3

Influenza - 50-100 million death a year
HIV - 35 million deaths a year
Comparable to WW with WW1 15 million dead and WW2 50 million dead

Question 4

What are examples of DNA viruses?

Answer 4

Pox
Herpes
Adenoviruses

Question 5

What are examples of RNA viruses?

Answer 5

Polio
Rhinovirus
Hepatitis C

Question 6

What are positive strand DNA/RNA viruses?

Answer 6

Its nucleotide sequence corresponds directly to the sequence of an RNA transcript which is translated or translatable into a sequence of amino acids

Question 7

What are negative strand DNA/RNA viruses?

Answer 7

Is reverse complementary to both the positive-sense strand and the RNA transcript, from which RNA polymerases construct the RNA transcript, but the complementary base-pairing means that the sequence of the RNA transcript will look identical to the positive-sense strand

Question 8

What is special about retroviruses?

Answer 8

Integrate into host genome
Reverse transcriptase - RNA to DNA
Integrase - DNA into chromosome

Question 9

What does a virus need for survival?

Answer 9

They must not kill the host rapidly
They must not be confined to a single host
They need a mechanism of transmission to a receptive host

Question 10

What is an overview of immunity?

Answer 10

Immunity can provide a barrier against transmission
Sterile immunity eliminates all the virus
Immunity can prevent symptoms but may not eliminate the virus. This can produce carriers

Question 11

What are the types of acquired immunity?

Answer 11

Humoral immunity - B-cell responses are soluble and do not sediment.
Cell-mediated immunity - T-cell responses sediment with a cellular fraction

Question 12

What is the mechanism of evolution of the immune system?

Answer 12

B-cells and T-cells evolve in response to millions of different antigens

Question 13

What is the structure of immunoglobulin?

Answer 13

Heavy and light chains and variable regions

Question 14

What is the work of Hozumi and Tonegawa?

Answer 14

Isolate B-cell lymphoma: an immortalised single B-cell
Inherited genes can be seen in the embryo
Probe for size of gene using a Southern Blot
Proved immunoglobulin genes can rearrange

Question 15

What are the main domains and number of genes involved of immunoglobulins?

Answer 15

constant region
Joining region - 5 genes
Diversity - 25 genes
Variable - 40 genes

Question 16

What is the overview of the repeatable region used by antibodies?

Answer 16

The repeated regions code for the variable domain.
Only one of the duplicated variable sequences is used by the antibody.

Question 17

What is an overview of VGJ recombination?

Answer 17

V(D)J recombination is the mechanism of somatic recombination that occurs only in developing lymphocytes during the early stages of T and B cell maturation.
It results in the highly diverse repertoire of antibodies and T cell receptors (TCRs) found in B cells and T cells, respectively. The process is a defining feature of the adaptive immune system.

Question 18

How much diverisity does VDJ recombinatio generate?

Answer 18

Total diversity 5.0 x 10^13 genes
Each B and T cell carries out one rearrangement: 10,000 each hour

Question 19

What are ways for escape mutants in viruses too occur?

Answer 19

Reassortment
Recombination
Point mutation

Question 20

What is reassortment?

Answer 20

Reassortment also called antigenic shift allows viruses to evolve rapidly

Question 21

What is an overview of segmented genomes?

Answer 21

Segmented genomes can be mixed up when two different strains of virus infect the same cell. They are packaged into new viruses

Question 22

What are the different outcomes of reassortment when there are two segments? In the example 1 human and 1 bird strain of influenza?

Answer 22

Human virus with human cell receptor binding
Bird virus with bird cell receptor binding
Human virus with bird cell receptor binding
Bird virus with human cell receptor binding

Question 23

What happens in the real world with influenza virus reassortment?

Answer 23

Can introduce virulence genes from wild life reservoirs into viruses in domestic poultry, pigs and humans

Question 24

What is an overview of virus recombination?

Answer 24

Recombination allows viruses to evolve by stealing genes from the host
Viruses can steal genes from the host and use them in defence
Immune evasion genes
Seen in the KSHV herpes virus genome map

Question 25

What is an overview of point mutations?

Answer 25

Most RNA polymerases and reverse transcriptase have low proof reading capacity and make mistakes

Question 26

What is a consequence of point mutations in viruses?

Answer 26

These viruses generate a ‘quasi species’

Question 27

What is the rate of point mutations in viruses?

Answer 27

1 error every 103-105 bp
3-32 kbp genome of RNA viruses means an average 0.1-1 mutations per template copied

Question 28

What limits point mutations in viruses?

Answer 28

Variation is restricted by the error threshold
Too many mutations lead to a virus that does not function

Question 29

What are the high rate of virus mutations and high rate of genetic diveristy in MHC mean?

Answer 29

The arms race is a battle between two methods of genetic change

Question 30

What is an overview of antigenic drift?

Answer 30

The generation of escape mutants explains antigenic drift: a slow evolution of the virus
The generation of immune escape mutants allows the virus to survive eg: HIV.

Question 31

How does HIV impact diveristy of MHC?

Answer 31

HIV kills helper T-cells needed to get B cells to make correct antibody. Patients cannot fight infections.
Means that overtime the number and variation of B and T cells reduces making more at risk of following infections

Question 32

What is an overview of coronaviruses?

Answer 32

Coronaviruses have a relatively large genome (25-30kb) and have evolved to incorporate ‘proof reading’ into the RNA-dependent RNA polymerase. 10X less mutation than for other RNA viruses
Pandemic virus had evolved to reduce the effectiveness of mutations - resulting in number of strains that can be more virulent

Question 33

If humans are 99.9% identical how do we prevent lethal pandemics?

Answer 33

Histocompatibility (transplant) antigens determine whether a tissue will be rejected.
They also determine what is ‘self’ in your personal immune system
Comes from studies of tissue transplantation

Question 34

How large is the MHC?

Answer 34

Transplant antigens are found in the Major Histocompatibility Complex. This represents 0.1% of the genome. MHC varies greatly between individuals.

Question 35

What is an overview of the MHC?

Answer 35

MHC-peptide complexes are used to detect viral infection (immunology revision)
This allows the immune system to ‘see’ into cells and tissues
Cytotoxic T-cells kill cells when MHC presents virus-derived peptides

Question 36

What is a case study of host-virus co evolution?

Answer 36

Two brothers in South Africa have mother with HIV. Mother dies aged 25, father is still alive aged 55.
At 5 years old one brother develops: CD4+ T-cell count very low (<200/ml), blindess fro reactivated herpesvirus, skin cancer, numerous lung and fungal infection and substantial weight lost
Brother died age 15 other brother is alive and in 20s

Question 37

Why did the other brother surivive HIV infection?

Answer 37

The surviving brother is an HIV elite controller

Question 38

What is an overview of HIV elite controller?

Answer 38

HIV infection causes loss of CD4+ T-cells and loss of immunity to opportunistic pathogens
Without drug treatment most infected people die
A small number of people are resistant to HIV
They are called HIV controllers and do not need anti-retroviral drugs

Question 39

How GWAS studies shown about HIV MHC mutations?

Answer 39

Genome wide association studies show mutations in HIV controllers cluster at a single position on chromosome 6

Question 40

What happens in the HIV elite controller people to be more resistant?

Answer 40

Mutations increase binding of MHC to HIV peptides: increases immune recognition

Question 41

How are HIV epidemics selecting for MHC alleles in human populations?

Answer 41

HLA B*57 populations will survive
B.51:01 are more disease susuceptible

Question 42

What happens if it all get’s too much for HIV?

Answer 42

The virus will integrate into the genome and stop making proteins
In rare cases it will enter the germline and be with you throughout evolution.

Question 43

What functional domains can be detected in Endogenous retrovirus?

Answer 43

LTR - promoter
GAG - Capsid gene
ENV - enovolope gene

Question 44

What is an overview of the mechanism of the placenta?

Answer 44

Trophoblasts of embryo invade the endometrium of the mother this is done to gain access to maternal blood supply
trophoblasts undergo cell to cell fusion to invade endometrium called syncytia (syncytiotrophoblast)

Question 45

How does the placenta impact infections?

Answer 45

Note the placental provides a good opportunity for retroviruses to infect the embryo. Vertical transmission
Retroviruses and retroviral RNA are in placental tissue

Question 46

What was the origin of the syncyntin genes for syncytia formation?

Answer 46

Syncytin proteins derive from retrovirus envelope proteins and allow fusion of the trophoblasts
They come from viral envelope proteins are used to fuse the viral envelope with the host cell

Question 47

What is the evolutionary histroy of endogenous retroviruses?

Answer 47

Endogenous retroviruses have provided syncytin genes independently at different times during mammalian evolution: this may explain placental diversity

Question 48

What is an overview of the ARC1 gene?

Answer 48

Endogenous retrovirus and the synapse.
Arc 1 is essential for synapse maturation, learning and memory
Dysfunctional Arc associated with autism, Alzheimer’s disease.

Question 49

How does ARC1 gene function?

Answer 49

m-RNA travels from nucleus to dendrites and synapses where it is translated into protein
Arc protein modulates AMPA glutamate receptor trafficking at synapses

Question 50

What is the origin of the ARC1 gene?

Answer 50

The Arc protein is derived from GAG genes and assembles into a capsid
The capsid shares structural homology with HIV

Question 51

What is similar with ARC1 and GAG genes?

Answer 51

The Arc protein is derived from GAG genes and assembles into a capsid and is hollow.
In common with viruses the Arc protein capsid contains Arc m-RNA

Question 52

What is the impact of endogenous retrovirus LTR promoter?

Answer 52

Endogenous retrovirus LTR promoter sequences affect corticotropin relasing hormone (CRH) gene expression in the placenta (determines onset of birth)

Question 53

What are the aetologic agent of disease?

Answer 53

Viruses
Bacteria
Eukaryotes

Question 54

What is an overview of the evolution of pathogens with in a host?

Answer 54

Founder effect bottleneck for initial population
Overtime natural selection will select for variaiton in receptor proteins, if enough to evade immune system to leave then potential start process again in new host

Question 55

What is an overview of the dynamic changes of gut microbiota?

Answer 55

The gut microbiota undergoes dynamic changes during host aging - diveristy decreases overtime
The composition of gut bacteria can change overtime depending on environmental conditions

Question 56

What is an overview of trypanosomes?

Answer 56

Population goes through peaks and troughs where once the trypanosomes reach a certain population size they use quorum sensing slows down replicaiton to not kill host.
This repeats because of antigentic shift preventing the immune system from fullu clearing infection
This is an undulating parasitaemia

Question 57

What is pathogenicity?

Answer 57

The ability of a microbe to cause disease
This term is often used to describe or compare species

Question 58

What is virulence?

Answer 58

The degree of pathogenicity in a microorganism
This term is often used to describe or compare strains within a species

Question 59

What is an overview of the evoltution of virulence?

Answer 59

Increased Pathogen load –> Increased Virulence –> Increased Transmission Rate
Or
Reduced Pathogen load –> Reduced Virulence –> Increased net transmission

Question 60

What things can evolve for bacterial pathogens?

Answer 60

Antibiotic resistance (for example efflux pumps)
Metabolic adaptations to host
Virulence and bacterial cell surface

Question 61

What is an escape mutation?

Answer 61

An adaptive mutation that give rise to a selective sweep, even if it has a slight fitness benefit

Question 62

What are the species definition for eukaryotic species?

Answer 62

A group of closely related organisms that breed among themselves
Not 100% as some species are asexual

Question 63

What are the species definition for prokaryotic species?

Answer 63

A population of cells with similar characteristics
Clone: Population derived from a single cell
Strain: Genetically different cells within a clone

Question 64

What is the species definition for viral species?

Answer 64

Population of viruses with similar characteristics that occupies a particular ecological niche

Question 65

What are an overview of viruses?

Answer 65

The virus diverts host resources for viral reproduction.
100s to 1000s of new viruses emerge destroying the cell.
Symptoms of colds and flu result from these dead cells.
Viral offspring infect more cells
Obligate intracellular parasites

Question 66

What are properties and their consequences of viruses?

Answer 66

Filterable agents Can’t be eliminated by filter sterilization
Obligate intracellular parasites Reproduce by infection
Few or independent functions Must take over host cell
Genome may be DNA or RNA Used in Classification
May be “naked” or enveloped Used in Classification
Life cycles variable and complex Can form basis for therapy

Question 67

What are examples of enveloped DNA viruses?

Answer 67

Pox
Herpes
Hepadna

Question 68

What are examples of nakes capsid?

Answer 68

Papova
Adeno
Parvo (ss)

Question 69

What are examples of positive strand RNA?

Answer 69

Nakes - Pircorna
Enveloped - Toga, Flavi and corona

Question 70

What are examples of negative strand RNA?

Answer 70

Enveloped - Rhadbo, Orthomyxo (influenza), Paramyxo (measles) and Filamentous (ebola)

Question 71

What are examples of positive and negative strand RNA?

Answer 71

Double capsid - Reo

Question 72

What are examples of positive strand RNA via DNA?

Answer 72

Enveloped - Retroviruses (HIV)

Question 73

What is an overview of a gram postive cell envelope?

Answer 73

1 layer of plasma membrane and thick multilayer of peptidoglycan

Question 74

What is an overview of a gram negative cell envelope?

Answer 74

2 layers of plasma membrane and thin peptidoglycan layer inbetween. The outer membrane has a lipopolysaccharide attached to it

Question 75

What are examples of different arrangements?

Answer 75

coccus -sphere
Strepto - chain
Staphyl - cluster
Sarcina - packet of 8

Question 76

What is Bergey’s manual of systematic bacteriology?

Answer 76

Classification of Bacteria - Key reference

Question 77

What are ways to classify bacteria?

Answer 77

By phenotype - Morphology or biotyping
By genotype - Chromosomal DNA fragment analysis or DNA hybridisation
By analytical methods - Proteomics and whole cell lipids

Question 78

What are potential issues with genotyping bacteria?

Answer 78

Bacteria have similar problems with morphology and asexuality
Additional problem of lateral gene transfer

Question 79

What are ways to genotype bacteria?

Answer 79

Hybridizations studies set as gold standard - 70% cross-hybridization
ANI refined measure - 95% average nucleotide identity
16S RNA favoured as a convenient marker 97%
Difference in gene content roughly 20%
MLST for better resolution – 6-10 housekeeping genes

Question 80

What is an overview of eukaryotic parasites?

Answer 80

Parasitic infections generally cause more morbidity and mortality world-wide than any other
Toxoplasma - ~30% of world population infected
Cryptosporidium - ~50 million cases, 200,000 deaths

Question 81

How do you classify parasites?

Answer 81

Morphology
Presentation/Symptoms
Host Range / Culture Conditions
Genotype

Question 82

What are traditional methods for diagnosing infectious disease?

Answer 82

Symptoms
Culture and Biochemistry
Morphology – Microscopy/Histology

Question 83

What are molecular methods for diagnosing infectious disease?

Answer 83

Serology (ELISA)/monoclonal antibodies
DNA (PCR)

Question 84

What is the problems for protist species?

Answer 84

Protists sex is often unobserved, absent or atypical and evidence for outbreeding is rare
So pathogen was named after the disease it caused

Question 85

What are examples of other species concepts?

Answer 85

Unified – De Quieroz - Independently evolving metapopulation
Phenetic - Shared quantifiable phenotypic characteristics - Morphospecies
Ecological - Shared Niche – host tropism, geography
Genotypic - Genetic relatedness – DNA hybridization, ANI, whole genome, synteny, gene complement
Biologically Compatable - Chromosomes, ISL, mini-exon, ribosomal promoters
Diagnosable - an explicit set of features that together distinguish the organism from all other described species and which can include pathogenesis, morphology, metabolism, genetics

Question 86

How can house keeping genes be used to identify parasites?

Answer 86

House keeping genes are essential but parasites can lose them and get requried nutrients from host, so each parasite have a unique combination of genes that are lost or not. Some genes can be species determinate and usual ways to identify parasite

Question 87

What is an overview of the importance of Giardia host identification?

Answer 87

Different assemblages which infect different hosts eg Humans and Pets
Vaccine manufacoters want pets to be vaccinated but pet Giardia dont transfer to humans as we get it from humans

Question 88

How can cryptic species be a problem?

Answer 88

Cryptosporidium parvum - In cattle though could transmit to humans in close contact
Cryptosporium Hominis - human to human
Crytposporidium anthroponosum - looks like parvum but is human to human
Makes lockdown and preventing firther spread harder as it would be unknown for human to human to animal to human source

Question 89

What is the evolution of the different cyrptosporidium species?

Answer 89

Cryptosporidium parvum - During middle ages
Cryptosporium Hominis - Industrial revolution
Crytposporidium anthroponosum - In the last few decades

Question 90

What is the difference between species concept and species definition?

Answer 90

We do not need to have an idealized species concept to formulate a pragmatic species definition.

However, Species Names once given should be robust and long-lived so the species definition should adequately reflect a consensus of species concepts

Phenotypic variation can be misleading as character traits can reflect as little as a single point mutation

Genotypic variation may be of no consequence to phenotype and particular to manifestation and treatment of a disease

Ideally a mix of genotype and phenotype

Question 91

What are house keeping genes?

Answer 91

These evolve slowly and neutrally, with little homoplasy and can provide clear species identification for pathogens.
Include universal genes

Question 92

What are contingency genes?

Answer 92

Genes that are heavily selected for and offer an advantage

Question 93

What is an overview of non coding (repetitve) DNA?

Answer 93

Evolves neutrally and quickly (but can be homoplastic) it can be used to discriminate strains (fine typing) and even for source tracking and forensics.

Question 94

What is an overview of contingency genes?

Answer 94

Evolve quickly under intense selection pressure.
Often Telomeric

Question 95

What are the properties of virulence determinants?

Answer 95

Parasite surface or secreted
(Hyper)variable between isolates
Under selection pressure dN/dS
Encoded telomerically or subtelomerically
Recombination/introgression hot spots
Multicopy or gene families
Glycosylated
Lipoylated
Environmenally regulated

Question 96

What do contingeny genes code for?

Answer 96

Encode Virulence Determinants
Virulence determinants influence pathogenicity
Adhesion
Colonization
Invasion
Immune evasion

Question 97

What are the problems with using contingency genes to mark strains?

Answer 97

Different strains may appear related due to convergent or parallel evolution
Virulence may be an unstable phenotype and may arise multifactorially
Care - Risks of false positives with diagnostics and taxonomy based on contingency genes

Question 98

What are the 2 main characteristics for evolutionairy pressure for pathogens?

Answer 98

Transmissibility - positive (allows spread)
Pathenogenicity - negative (may kill host)

Question 99

What is an overview of vertical transmission?

Answer 99

Low infectious dose for infection Fixed Ro, cost to host is cost to pathogen
Evolutionary driver towards chronic illness or commensualism

Question 100

What is an overview of horizontal transmission?

Answer 100

High infectious dose favors transmission, lower penalty for damaging host. Favours acute/virulent transmission – but trade-off, self restraint, altruism

Question 101

What are the main transmission routes and examples of their infections?

Answer 101

Airborne – respiratory mycoses - aerosolisable
Bloodborne – haemoparasites – survive in blood
Foodborne/Waterborne – cryptosporidium, giardia, amoebiasis – environmentally resistant cysts
STD– Trichomoniasis – Resists dessication – adheres surfaces
Nosocomial (Iatrogenic) – Candidiasis (glabrata) – Biofilms
Vertical – Malaria, Toxoplasmosis – placental abruption
Environmental – amoebiosis – free living, contractile vacuole
Vectorborne – malaria, leishmaniasis – penetrative motility

Question 102

What are biological disequilibriating factors?

Answer 102

Pathogen adaptation
Drug resistance, mode of transmission, host spillover

Question 103

What are anthropocenic disequilibriating factors?

Answer 103

Socio-economic conditions – migrations
Wars and refugee movements
Agricultural Intensification
Intercontinental travel
Problems with public health services
Globalisation of food supplies
Global warming

Question 104

What is the main trend for most emerging diseases?

Answer 104

Most Emerging Diseases are Vector Borne or Zoonotic

Question 105

What is an overview of DNA sequencing for pandemics?

Answer 105

Source tracking - use DNA sequecing to track down the patient 0 to determine where from
Sequence genome to estimate whether previous strains and vaccines offered the protective resistance in new strain
Contact case forward to help reduce spread and confirm strain no longer spreading

Question 106

What is an overview of Ebola?

Answer 106

Natural host is in bats
Areas with ebola infections overlap with areas that fruit bats lives in high numbers

Question 107

How did they use source tracking for Ebola?

Answer 107

Index Case identified – Patient zero
Meliandou Guinea
December 2013
Emile Ouamouno – 2yo
Unknown but believed it came from playing with guano

Question 108

What are examples of insects and disease they carry?

Answer 108

Fleas – Plague
Mosquitos – Malaria, Dengue, Yellow fever, Filariasis, West Nile Virus (++other encephalitus)
Ticks – Lyme disease, tick-borne viruses
Tsetse – African Trypanosomiasis
Triatomine – American Trypanosomiasis

Question 109

What are examples of outbreak of Yersinia Pestis?

Answer 109

Plague of Justinian (541–542)
The “Black Death” of 1347–51
The Third Pandemic, China (1855–1950s)

Question 110

What are the mortality rate for the black death outbreak?

Answer 110

West Europe - 33%
Genoa - 60%
Norwich - 30%

Question 111

What are the mutation that allowed for Yersinia Pestis to be carried by rat?

Answer 111

ymt mutation which evolved ~1000 bc

Question 112

Why isnt Yersinia Pestis no longer in the UK?

Answer 112

Rattus Rattus (black rat) the main host was outcompeted by rattus norvegicus
Flea and Y.pestis have lower transmission rate in black than brown rat

Question 113

What is the history of the distrubtion of dengue virus?

Answer 113

Wide spread throughout South America but ddt spraying for malaria caused massive declines in dengue cases and locations however when mosquitos became DT resistant and humans learned of health consequences so us stopped debgue returned
Spread by Aegis aegypti

Question 114

What is the traditional distrubution of dengue?

Answer 114

Each region had a unique varient of dengue and when you had and fought it off you became immune to that varient

Question 115

What is the problem with being infected with 2 different strains of dengue?

Answer 115

When fight off one, you produce antibodies but those antibodies bind to but doesnt neutralise other varients which causes a more severe disease, dengue hemorrhagic fever
This is coming more common with regions getting more than one varient

Question 116

What are ways to combat the vector borne diseases?

Answer 116

Transgenic Mosquitos: Better than SIT, since males are normal
RIDL – Release of Insects carrying a Dominant Lethal all female progeny fail to develop.
Problem/advantage – no driver for population fixation

Question 117

What is the different between pathology of Leishmaniasis?

Answer 117

In India and North Africa - 90% severe reaction
Europe - 20-30% severe reaction
HIV disrupted this as immunosuppresed people have more severe oubreak

Question 118

What is the circle of poverty?

Answer 118

Disease –> Less work and less schooling –> Increases poverty –> Poverty leads to worse conditions and reduced spending of disease prevention –> Increases rate of disease

Question 119

What was the controversial way to deal wirth tsetse fly?

Answer 119

IAEA steralised flies

Question 120

What is a way of using symbiotic bacteria to control disease?

Answer 120

Wolbachia disrupt populations through interfering with reproduction through 4 means incl cytoplasmic incompatibility

Question 121

What is the overview of the number of cases of malaria in Uk?

Answer 121

Around 2,000 cases a year
Used to be dominated by milder Ali malania now the amount of Plasmodium falciparum has been increasing
Also global trend

Question 122

How was Malaria naturally wiped out in UK?

Answer 122

Increased drainage of marshes
Increased livestock density
Reduced human density
Last case recorded 1951

Question 123

What factors are causing reemergance in Africa?

Answer 123

Frequent armed conflicts and civil unrest in many countries, forcing large populations to settle under difficult conditions, sometimes in areas of high malaria transmission
High birth rates leading to a rapid increase in the susceptible population under 5 years of age
Agricultural development – rice paddies
adverse socioeconomic conditions leading to a much reduced health budget and gross inadequacy of funds for drugs;
changing rainfall patterns as well as water development projects such as dams and irrigation schemes
**90% of malaria is now from Africa

Question 124

How have rice paddies increase Malaria rate?

Answer 124

Very few cases when area was dry but when rice production increase within 10 years increased to 27 mullion cases of Malaria

Question 125

How much protection is good enough?

Answer 125

Malaria vaccine was around 40% when first discovered but thought could be better after a couple decades no real improvement so the new vaccine was rolled out to save lives not wipe out disease