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Prokaryotes capture solar energy
Primitive eukaryotes Atmospheric oxygen levels begin to rise ~2.3 Mya Photosynthetic bacteria generate oxygen
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4 3 2 1 Billions of years ago (Bya) Eukaryotes appear Now!
photosynthesis Origin of the earth Cyanobacteria produce O2 First prokaryotes 4 3 2 1 Now! Billions of years ago (Bya) ~1 billion years to first cell additional ~1.5-2 billion years to first eukaryotic cell
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Endosymbiont hypothesis
Uptake of prokaryotes capable of respiration and photosynthesis was critical to the evolution of multicellular eukaryotes
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Mitochondria: our batteries
Human cells have hundreds of mitochondria inherited from the egg Inner membrane of mitochondria contains proteins involved in energy production – many in-foldings increase surface area for energy production Mitochondrial DNA (mtDNA) circular genome with 37 genes small and large rDNA 22 tRNA genes small number inner membrane proteins protein synthesis is more similar to prokaryotes Mitochondrial DNA: A closer look from DNA Learning Center
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Consensus tree is consistent with sequences of ribosomal RNA
eukaryotic evolution involved the symbiosis of bacteria that gave rise to mitochondria and chloroplasts LUCA
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Changes in rDNA sequences used to predict evolutionary relationships
What is the smallest number of sequence changes that can account for the data?
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LUCA What happened to disturb this nice tree?
sequences of other genes did not produce the same tree structure both archaeal and bacterial sequences could be found in the same genome LUCA
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LUCA is replaced with a community of cells
Genome projects suggest complex microbial communities at the root of the tree Data with individual genes varies Lateral transfer of DNA has occurred many times, particularly in prokaryotes LUCA is replaced with a community of cells
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Proximity is important in horizontal gene transfer
Photo by Yellowstone NPS Archaea and thermophilic bacteria in environments like this one have exchanged many genes.
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What do we know about horizontal (lateral) gene transfer?
Multiple mechanisms are involved in gene transfer Gene transfer is infrequent Selection is required to maintain transferred genes Common among unicellular organisms; rare in multicellular organisms
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Japanese get more nutrients from sushi than the average American because of their gut bacteria
Horizontal gene transfer from ocean microbe, Zobellia galactanivorans, to gut bacteria
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The Microbiome Our extra organ? Bacteria outnumber human cells 10:1
Bacterial genes outnumber human genes 100:1 Majority of the microbiota cannot be cultured in the lab with traditional techniques Our knowledge of the microbiome has been obtained by metagenomics
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Metagenomics – a shotgun approach
Collect environmental sample Separate microbes (small) Isolate DNA* Clone the DNA into plasmids (makes it possible to obtain many copies of the sequences) Obtain the DNA sequences of individual clones Align the DNA sequences to reconstruct the complete genome sequences random fragments of DNA
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Goal of the Human Microbiome Project was to characterize the microbial communities at defined sites in the body standardized data collection samples from 242 HEALTHY individuals over two years
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Who’s there? The microbiome includes:
Bacteria – DOMINANT – represent >99% cells Archaea Eukaryotes: fungi and others Viruses: bacteriophages and human viruses (non-cellular)
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Conclusions: No two people are alike Diversity highest in gut and teeth Sites have characteristic taxonomic signatures (species present) Species vary greatly in their abundance Number of species Number of genes
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Clustering algorithms find the species can be grouped together by site
Nature 486: (2013)
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Balance between species is important for health
Bacteria from different phyla predominate at each site Often multiple members of same genus coexist Opportunistic pathogens are also present Balance between species is important for health Nature 486: (2013)
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Billions of years separate the bacterial phyla
Line length is proportional to time
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Fungal species are abundant at some sites
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Mouth is dominated by Streptococcus, a firmacute
Firmicutes (Gram positive) Proteobacteria Yeast (fungus)
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Gut is dominated by Bacteroides
Proteobacteria H. pylori affects stomach acid, appetite Firmacutes Lactobacilli are commonly found in probiotics boosts anti-inflammatory T cells digestion of complex carbohydrates
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opportunisitic fungus can cause dermatitis
Firmacutes Actinobacteria (gram positive) Basidomycota fungus
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Hijackers! Viruses are infectious agents that replicate within the cytoplasm of a living cell Viruses are host-specific Bacteriophage infecting a bacterium Viruses are categorized according to their type of genome: double-stranded DNA single-stranded DNA double-stranded RNA single-stranded RNA
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The diameter of an influenza virus is ~100 nm.
The diameter of a eukaryotic cell is ~10 µm (10,000 nm) How many influenza viruses would fit in a eukaryotic cell?
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single stranded RNA negative-sense
Influenza viruses single stranded RNA negative-sense (genome is copied into DNA in the host) 1918 virus reconstructed in the lab What kinds of genes do viruses generally need to carry with them? coat proteins, including some that bind receptors on the host cell RNA or DNA polymerase proteins required to hijack the cell’s RNA and protein synthesis
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Viral replication consists of several “stages”
Initial engagement virus binds to a receptor on the host cell virus penetrates the cell virus is uncoated Host range: viruses can only attach to cells that have the right receptors
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Viruses use the host machinery for replication and information transfer
Multiple copies of viral genome are made Synthesis of viral mRNAs
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New viruses are released
Virus particles assemble in the cytoplasm Viruses are released from the cell Newly synthesized viruses will attack other targets
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Much harder to identify viruses in metagenomics (no ribosomal RNA)
MANY bacteriophage are present Potential pathogens (flu, etc.) are also present Stay tuned!
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