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Transcript of Jeremy Glasner, Ph.D. December 1, 2015. KEY LESSONS FROM MICROBIAL EVOLUTION Microbes have been...
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Microbial Evolution
Jeremy Glasner, Ph.D.December 1, 2015
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KEY LESSONS FROM MICROBIAL EVOLUTION
Microbes have been evolving for a long time and are extremely diverse
Provide good evidence for natural selection on genome scale
Microbiome data provides evidence of diversity of microbial populations in varying environments
Symbioses between bacteria and hosts evolve commonly
Many modalities exist for transmission of bacterial traits such as pathogenesis and drug resistance
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Bacteria are the dominant form of life on the planet
https://en.wikipedia.org/wiki/Biomass_(ecology)
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•The timetable• 3.6-3.7 billion years ago: appearance of life• 2.5 billion years ago oxygen-forming photosynthesis• ~2.2 billion years ago: aerobic respiration• ~1.5 billion years ago: first evidence of fossil eukaryotes
The appearance of Life
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Fossil evidence of ancient microbes is scant, but suggests very ancient origin, likely ~3.5 billion years ago
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"Anything found to be true of E. coli must also be true of elephants.” –Jacques Monod
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"Genome Sizes" by Abizar at English Wikipedia. Licensed under CC BY-SA 3.0 via Wikimedia Commons - http://commons.wikimedia.org/wiki/File:Genome_Sizes.png#mediaviewer/File:Genome_Sizes.png
Bacteria now commonly studied by genome sequencing and tend to have small genomes ~1-10 Mb
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"Genome Sizes" by Abizar at English Wikipedia. Licensed under CC BY-SA 3.0 via Wikimedia Commons - http://commons.wikimedia.org/wiki/File:Genome_Sizes.png#mediaviewer/File:Genome_Sizes.png
Variation in Number of Genes Across Tree of Life
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"Genome Sizes" by Abizar at English Wikipedia. Licensed under CC BY-SA 3.0 via Wikimedia Commons - http://commons.wikimedia.org/wiki/File:Genome_Sizes.png#mediaviewer/File:Genome_Sizes.png
Number of genes as a function of Genome Size
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WHAT IS AN OME? Genome
Transcriptome
Exome
Methylome
Phenome
Genome-Scale datasets are becoming routinely available from many organisms and even populations and provide incredible insight into the evolution of organisms
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MCKINNEY, Emily A. and OLIVEIRA, Marcos T.. Replicating animal mitochondrial DNA. Genet. Mol. Biol. [online]. 2013, vol.36, n.3, pp. 308-315. ISSN 1415-4757.
OUR LITTLE ENDOSYMBIONT GENOME
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OUR GENOME(S)
nuclear genome mitochondrial genome microbiome
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Most microbes are unculturable
New DNA sequencing-based methods allow us to observe all of the genomes present in a sample without needing to grow a culture
Metagenomics is the popular term for sequencing the genomes from a sample
Often sequence 16S ribosomal RNA genes (highly conserved)
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http://www.wagsrevue.com/thewag/?q=content/graphic-science-1
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http://www.wagsrevue.com/thewag/?q=content/graphic-science-1
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http://www.wagsrevue.com/thewag/?q=content/graphic-science-1
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http://www.wagsrevue.com/thewag/?q=content/graphic-science-1
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http://www.wagsrevue.com/thewag/?q=content/graphic-science-1
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C Huttenhower et al. Nature 486, 207-214 (2012) doi:10.1038/nature11234
Carriage of microbial taxa varies while metabolic pathwaysremain stable within a healthy population.
Key findings from the human microbiome project
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Yes, the microbiome can affect behavior
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http://phylogenomics.blogspot.com/
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Diminished diversity in the human gut microbiome compared to apes
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http://u.osu.edu/sabreelab/author/sabree8/
Symbiosis is an “intimate”, “long-term” (evolutionary-relevant time?) interaction between (different types of) organisms encompassing the range from mutualism to parasitism
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SYMBIOSIS- MAIN VARIABLES
Route of infection (maternal, horizontal, mixture) Mechanisms of benefiting or exploiting hosts Location of symbionts in host body:
intracellular, between cells, in specialized organ or in other tissues, within gut lumen, etc.
Molecular mechanisms of invading host tissues or cells: similarities and differences between symbionts and pathogens
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Escherichia, Salmonella, etc.Xenorhabdus, Photorhabdus, ProteusSoft rotters
Edwardsiella, HafniaYersinia, Serratia, Ewingella
Specialization in plants
Specialization in animals
Plants
Mixed
Animals
Animals
Animals
Animals
Enterobacteria contain many pathogens, as well as many commensals of plants and animals
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Mechanisms of bacterial pathogenesis
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http://okanogan1.com/wp/wp-content/uploads/2011/02/brinton_conjugation_small.gif
Bacterial Conjugation
Can transfer DNA from donor cell to recipient celle.g. in E. coli a plasmid called “F” for fertility contains genes encoding a structure called a pilus that can transfer the plasmid, and occasionally large pieces of the E. coli chromosome to cells that lack the F plasmid. The transferred DNA can sometimes recombine into the recipient’s genome
So even traditionally “asexually” reproducing organisms do exchange genetic material and undergo recombination, “sex”, but it is often called “lateral gene transfer since it mechanistically somewhat different from sex in most eukaryotes that involves meiosis and recombination
EVOLUTION OF PATHOGENESIS THROUGH HORIZONTAL GENE TRANSFER
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Horizontal Gene Transfer (= Lateral Gene Transfer): Transfer of genetic material (DNA) to another organism that is not its offspring.
• Transformation
• Transduction
• Conjugation
Horizontal gene transfer between bacteria was first described in Japan in a 1959 publication that demonstrated the transfer of antibiotic resistance between different species of bacteria
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Horizontal Gene Transfer
Consequences:• Phylogenetic relationships are sometimes difficult to discern (as genetic material is being swapped around)
• Rapid transfer of functional genes: pathogenicity genes, rapid evolution of drug resistance
• Bacteria effectively have a HUGE genome size (Pan-Genome), a large genome to draw from, as individual cells can share genes with other individuals
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Blattner et al. 1997
1997 – “The” E. coli genome
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Extensive variation in gene content
Two E. coli genomes(Perna et al., 2001)
Three E. coli genomes(Welch et al., 2002)
Lineage-specific “islands” can be a
significant fraction (up to
30%) of the genome
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Pan-Genome
Core
Variable
Core
Variable
Genome of any one organism Genome of the “species”
The Pan Genome (yellow + blue) of a prokaryotic “species” is much larger than the genome of any one bacterial organism or of the core genome (blue) of the species
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Touchon M, Hoede C, Tenaillon O, Barbe V, et al. (2009) Organised Genome Dynamics in the Escherichia coli Species Results in Highly Diverse Adaptive Paths. PLoS Genet 5(1): e1000344. doi:10.1371/journal.pgen.1000344http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1000344
E. coli core and pan-genome evolution
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Evolution of new symbiotic relationships in bacteria can occur by gene acquisitione.g. the evolution of different pathogenic types of E. coli is thought to occur by horizontal (lateral) gene transfer of pathogenicity genes/islands of genes
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Example of acquisition of genes encoding type III secretion systems in pathogenic E. coli that can deliver pathogenicity determinants directly into eukaryotic host cells
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…it can be hard to determine the environment that matters most in the context of many co-evolutionary events… commensal in one species, pathogenic in another…
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http://www.compoundchem.com/wp-content/uploads/2014/09/A-Guide-to-Different-Classes-of-Antibiotics.png
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Antibiotics target highly conserved aspects of bacterial growth and metabolism
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Antibiotics are often useful for only a subset of bacteria –e.g. evolutionarily/phenotypically related groups
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Why do antibiotics kill bacterial cells but not human cells?
Because they target bacterial specific metabolic processes or very specific differences between processes conserved between humans and bacteria
note: chemotherapeutic drugs are hard to develop because…
Antibiotics kill! They are lethal! That is extremely strong selection!
If there are antibiotic resistant variants in the population they will quickly rise to fixation!
Hospitals are evolutionary breeding grounds for selecting for multiple-drug resistant antibiotic strains of bacteria.
Indiscriminant use of antibiotics reduces their long-term utility –e.g. animal agriculture
Evolution of Antibiotics and Antibiotic Resistance
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http://www.cmaj.ca/content/180/4/408.figures-only
The evolutionary arms race between antibiotics and antibiotic resistance
For every mechanism of offense there seems to be a good defense…
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Antibiotic resistance genes spread among bacteria because they have multiple mechanisms for exchanging DNA (aka Lateral/Horizontal Gene Transfer)
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Cyanobacteria
Cyanobacteria
Eukaryote- Plant
Cyanobacteria
Bacteria
Bacteria
Bacteria
Bacteria
Eukaryote-protozoan
Eukaryote-protozoan
Eukaryote-animal
Eukaryote-fungal
(Phylogenetic evidence for gene transfer from organelles)
e.g. Arabidopsis genome has >1000 genes from cyanobacteria
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Beneficial microbes in animal hosts--examples
1 Insect-nutritional mutualists (aphids & Buchnera)Many invertebrates have specialized intracellular associations with bacteria that make nutrients
Examples: marine bivalves, leeches, many insects
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Metazoa: ancestral loss of many genes underlying biosynthesis of compounds essential for metabolism, including many amino acids and many cofactors. -->dietary requirements.
Little or no gene uptake
Tree of Life, N. Pace
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Routes of transmission
Vertical (parent to offspring)
Horizontal May live in the environment (outside hosts), or
not
Mixture of vertical and horizontal Eg acquire from other individuals in the same
family or colony (termites, humans… )
Termite with gut removed
Diverse microbes in termite gut
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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maternal bacteriocytes containing symbionts
early embryos with symbionts visible
late embryos
J. Sandström
1 mm
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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1mmJ. White
Buchnera aphidicola within pea aphid bacteriocyte
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Aphid eggs containing Buchnera from mother
A. Mira0.5 mm
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Shigenobu et al 2000 Nature
The Buchnera gene set (570 genes) is a subset of that of E. coli (~4500 genes)
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Essential amino acid biosynthetic pathways
argA argB argC argD argE carAB argF argG argH
Glutamate---> ---> ---> ---> ---> Ornithine ---> ---> ---> ---> ARG
ilvHI ilvC ilvD ilvE
Pyruvate ---> ---> ---> ---> VAL
ilvA ilvHI ilvC ilvD ilvE
Threonine ---> a-Ketobutyrate ---> ---> ---> ---> ILE + Pyruvate
ilvHI ilvC ilvD leuA leuCD leuB ilvE
Pyruvate ---> ---> ---> ---> ---> ---> ---> LEU
aroH aroB aroD aroE aroK aroA aroCPEP+Erythrose ---> ---> ---> ---> ---> ---> ---> Chorismate4-Phosphate
pheA pheA hisC
Chorismate ---> ---> ---> PHE
trpEG trpD trpC trpC trpAB
Chorismate ---> ---> ---> ---> ---> TRP
thrA asd thrA thrB thrC
Aspartate ---> ---> ---> Homoserine ---> ---> THR metB metC metE
Homoserine ---> ---> ---> MET
thrA asd dapA dapB dapD dapC dapE dapF lysA
Aspartate ---> ---> ---> ---> ---> ---> ---> ---> ---> LYS
hisG hisI hisA hisHF hisB hisC hisB hisD
PRPP + ATP ---> ---> ---> ---> ---> ---> ---> ---> HIS
Nonessential amino acid biosynthetic pathways
tyrA tyrA hisC
Chorisimate ---> ---> ---> TYR
proB proA proC
Glutamate ---> ---> ---> PRO
serA serC serB
3-Phosphoglycerate ---> ---> ---> SER
glyA
Serine ---> GLY
cysE cysK
Serine ---> ---> CYS gtBD/gdhA
2-oxoglutarate ---> GLU
glnA
Glutamate ---> GLN
aspC+tyrB
Oxaloacetate ---> ASP
asnB/asnA
Aspartate ---> ASN
alaB/avtA
Pyruvate ---> ALA
GENE / product present in Buchnera GENE / product absent in Buchnera
(based on Shigenobu et al 2000)Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”
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Moran NA, Bennett GM. The tiniest tiny genomes. Annu Rev Microbiol. 2014;68:195-215. doi: 10.1146/annurev-micro-091213-112901. Epub 2014 Jun 2. PubMed PMID: 24995872.
Tiniest Tiny Genomes
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“The extreme case, to date, is the genome of “Candidatus Nasuia deltocephalinicola,” one of two obligate symbionts of the leafhopper Macrosteles quadrilineatus; this Nasuia strain possesses a mere 137 protein-coding genes and a genome of only 112 kb”
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evolutionary innovations through symbiosis:
examples
• Eukaryotic cell (mitochondria)• Photosynthesis in eukaryotes
(plastids)• Colonization of land by plants
(mycorrhizae)• Nitrogen fixation by plants (rhizobia)• Animal life at deep sea vents
(chemoautotrophic life systems)• Use of many nutrient-limited niches
by animal lineages
Adapted from slide from Nancy Moran’s Oct 3, 2006 lecture “Symbiotic Bacteria in Animals”