The Metagenome

Question 1

What is metagenomics?

Answer 1

This is the study of genetic material recovered directly from environmental or biological systems/compartments

Question 2

What is the significance of metagenomics?

Answer 2

• Unbiased view of taxanomic diversity in a sample
• Not limited by ability to culture
• Overall view of gene content in a sample

Question 3

How many base pairs are sequenced using metagenomics?

Answer 3

1.045 billion base pairs sequenced

elucidate the gene content, diversity, and relative abundance of the organisms

Question 4

What are some of the significant findings of metagenomics

Answer 4

estimated to derive from at least 1800 genomic species
identified 148 previously unknown bacterial phylotypes
identified over 1.2 million previously unknown genes

Question 5

What is microbiota?

Answer 5

ecological community of commensal and pathogenic microorganisms
Includes bacteria archaea, protists, fungi and viruses

Question 6

What is the microbiome?

Answer 6

The collective genomes of microorganisms in these communities

Question 7

Name some environemntal microbiota

Answer 7

Deep sea microbiome
Soil microbiome
Hospital microbiome
Subway microbiome

Question 8

What are some examples of human microbiota?

Answer 8

Gut microbiome
Skin microbiome
Oral microbiome
Vaginal microbiome

Question 9

How diverse are the human microbiota?

Answer 9

Taxonomic diversity varies by body site

Question 10

How does microbiome differ from person to person?

Answer 10

Microbiome unique to each individual, even between twins

Question 11

What does a change in microbiome suggest?

Answer 11

Changes in the microbiome have been associated with multiple human illnesses, e.g. Irritable Bowel Syndrome, depression, cancer

Question 12

What is the significance of gut microbiome?

Answer 12

Gut microbiome can classify individuals as lean or obese with >90% accuracy
Early-life gut microbiomes linked to development of allergic conditions e.g. asthma

Question 13

What is CDI?

Answer 13

Clostridium difficile infection (CDI) is a disease of the large intestine caused by toxins produced by the spore forming bacterium Clostridium difficile

Question 14

How does stool microbiota differ in CDI?

Answer 14

Stool microbiome during Clostridium difficile infection (CDI), quite different from healthy stool microbiome
CDI has greater effect on stool microbiome than host genetic factors

Question 15

How CDI cured?

Answer 15

Faecal microbiota transplant is able to cure CDI

Restoration of the stool microbiome to that of healthy state is rapid following transplantation

Question 16

What is the relevant factor of microbiota in causing disease?

Answer 16

The relative abundance of organisms may not be as important gene content

Question 17

What are the technological approaches to metagenomics?

Answer 17

• Targeted PCR amplification

- Whole Genome Shotgun Sequencing

Question 18

Describe the PCR technique used in metagenomics

Answer 18

16S rRNA, bacteria

Internal transcribed spacer (ITS), 18S rRNA, eukaryotes

Question 19

Outline the benefits of Whole Genome shotgun sequencing in metagenomics

Answer 19

Assess taxonomic diversity in sample
Assess composite gene functions in sample
Unbiased, all micro-organisms

Question 20

What is the 16s ribosomal RNA?

Answer 20

16S ribosomal RNA is component of 30S small subunit of prokaryotic ribosome

Question 21

Outline the 16s Targeted PCR amplification workflow

Answer 21

1. Sample selection
2. DNA extraction
3. 16s PCR amplification
4. Sequencing
5. Analysis

Question 22

Name some of the 16s databases

Answer 22

Greengenes
Silva
RDP

Question 23

Give examples of open source analysis pipelines available

Answer 23

QIIME
Mothur
DADA2

Question 24

What are the 4 main metagenomic technologies available

Answer 24

Roche454
Illumina HiSeq
IonTorrent PGM
Illumina MiSeq

Question 25

Which regions are commonly used in 16s Targeted PCR amplification?

Answer 25

Different studies differ
V1 - V2 and V1 - V3 are very common
but there is no consensus for which region to use

Question 26

How does gut microbiota change with age?

Answer 26

<4 yrs old have lots of actinobacteria (generally bifidobacterium well known baby gut bacteria)
As you get older bifidobacterium goes down, bacteroides comes up

Question 27

What are the 2 factors taken into consideration when choosing which variable region to sequence?

Answer 27

• Phylogenetic signal

- amplicon length

Question 28

Describe how phylogenetic signals in bacteria determine which variable region to choose?

Answer 28

Similarities cluster together, differences cluster further apart
e.g.
V1-V2 reds (Staphylococcus epidermidis) and blue (staphylococcus aureus) are separated quite clearly
V4 tree: reds and blues are very mixed

to study skin biome use V1-V2

Question 29

How does amplicon length affect the variable region chosen?

Answer 29

Errors present in sequences (by random). The error in the middle will be corrected due to overlap
Errors not overlapped will remain in sample ∴ data won’t be as good
where there is 100% overlap the whole sequence is corrected ∴ provides a much more accurate estimation of genes present

Question 30

Where inthe genome 16s rRNA found?

Answer 30

16S rRNA gene found in all bacteria

Question 31

How susceptible to contamination is the 16s rRNA gene?

Answer 31

Method very sensitive to contamination from
- Environment
- Operator
- Reagents
Especially important for low biomass samples

Question 32

Why are low biomass samples more susceptible to contamination?

Answer 32

E.g. fecal sample has lots of bacteria material ∴ contamination will be at a smaller proportion - less effect
Skin swabs have a small bacteria presence so contamination will have a greater effect on results

Question 33

How can we mitigate potential contamination?

Answer 33

• Randomise samples
• Note batch numbers of reagents
• Sequence negative controls

Question 34

Why s choosing the correct variable region important?

Answer 34

Choice of variable region determines resolution

Less reliable below genus level

Question 35

What are the new full length 16s technologies available?

Answer 35

New long read technology enable full length 16S sequencing
PacBio
Nanopore

Question 36

What is the drawback of full length 16s sequencing?

Answer 36

However, higher error rates of long read technologies introduce noise
Development ongoing

Question 37

How does WGS differ from 16s sequencing?

Answer 37

In 16s rRNA amplification only sequence one gene

WGS sequences across all genomes at the same time - don’t always align but are made up of different bacterial species

Question 38

How does WGS sequencing allow us to see genes?

Answer 38

WGS Shotgun is assembled

After assembly we can form our phylogenetic tree to find relative abundances of bacteria and genes present.

Question 39

What other analysis does WGS allow?

Answer 39

Gene prediction can also occur as we have sequenced all genomes - can look at pathways and which genes contribute to which pathway in certain individuals genes in pathways may be accelerated etc.

Question 40

Why is WGS still not 100% reliable?

Answer 40

Host cells often in excess in the sample as amplification not done
No amplification step to enrich for bacterial DNA
need to ensure we’re not just sequencing host cell

Question 41

Which samples are more likely to be contaminated by hosts using WGS?

Answer 41

Faecal: <10% human reads

Saliva, nasal, skin samples: >90% human reads

Question 42

What steps are taken to enrich the sample without amplification in WGS?

Answer 42

Pre-extraction

Post-extraction

Question 43

Describe pre-extraction?

Answer 43

Differential lysis of mammalian cells
Enrichs for intact microbial cells
Potential bias towards gram-positive bacteria

Question 44

What is post-extraction?

Answer 44

Enzymatic degradation of methylated nucleotides targets mammalian DNA
Bias against AT rich bacterial genomes

Question 45

What open source analysis pipelines are available for WGS?

Answer 45

MG-RAST
Metaphlan
Megan