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Viral Genomics Allie Evans Colin Lappala Chelsea Layes Sheena Scroggins.

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Presentation on theme: "Viral Genomics Allie Evans Colin Lappala Chelsea Layes Sheena Scroggins."— Presentation transcript:

1 Viral Genomics Allie Evans Colin Lappala Chelsea Layes Sheena Scroggins

2 The Sorcerer II Global Ocean Sampling Expedition: Northwest Atlantic through Eastern Tropical Pacific Rusch DB, Halpern AL, Sutton G, Heidelberg KB, Williamson S, et al. PLoS Biology Vol. 5, No. 3, e77 doi:10.1371/journal.pbio.0050077 The Sorcerer II Global Ocean Sampling Expedition: Expanding the Universe of Protein Families Yooseph S, Sutton G, Rusch DB, Halpern AL, Williamson SJ, et al. PLoS Biology Vol. 5, No. 3, e16 doi:10.1371/journal.pbio.0050016 The Sorcerer II Global Ocean Sampling Expedition: Metagenomic Characterization of Viruses within Aquatic Microbial Samples Shannon J. Williamson, Douglas B. Rusch, Shibu Yooseph, Aaron L. Halpern, Karla B. Heidelberg, John I. Glass, Cynthia Andrews-Pfannkoch, Douglas Fadrosh, Christopher S. Miller, Granger Sutton, Marvin Frazier, J. Craig Venter

3 Baltimore Classification of Viruses dsDNA ssDNA dsRNA +ssRNA -ssRNA ssRNA-RT dsDNA-RT http://upload.wikimedia.org/wikipedia/en/thumb/0/07/Baltimore_Classification.png/720px-Baltimore_Classification.png

4 Bacteriophages Viruses that infect bacteria Numerically dominant type of phage in oceans. http://www.scienceclarified.com/images/uesc_02_img0070.jpg

5 Cyanophages Prochlorococcus Viruses have acquired and retained photosynthesis gene http://web.mit.edu/mbsulli/www/NATL2A-40-group-cropped.jpg

6 Phage Cycles

7 Lateral gene transfer http://upload.wikimedia.org/wikipedia/commons/thumb/4/42/Transduction_(genetics).svg/800px-Transduction_(genetics).svg.png l

8 Metagenomics Contribution of viral genomes to microbial environmental processes studied through metagenomic techniques. Metagenomics enables us to study microorganisms by examining DNA that is extracted directly from communities of environmental microorganisms

9 http://camera.calit2.net/metagenomics/what-is-metagenomics.php

10 Metagenomic Challenges Inefficiencies in sampling DNA extraction methods Construction of libraries Inadequacies in data analysis and visualization tools Low abundance species overlooked Lack of reference genomes Sequencing complex environments cost prohibitive Standardizing metadata

11 Methods Cruise the world Collect 90-200 L of seawater from each of 37 different stations Record pH, salinity, temperature, etc. of water First:

12 Methods Pass water through 2.0, 0.8, 0.1 µm filters, TFF to 50Kda for viral concentrate Store at -20°C until shipment from next port

13 Sequencing Preparation Extract DNA Nebulize DNA –Average of 1.0-2.2 kb fragments Gel electrophoresis extraction –purify and determine lengths Subclone into E. coli Colonies selected for inserts Shotgun sequence inserts

14 End sequence each insert –Average of 822 bp sequenced per end Sequencing www.pasteur.fr/recherche/genopole/PF8/equipement_en.htmlnopole/PF8/equipement_en.html

15 Same procedure as in humans, Drosophila, dogs, etc. Metagenomic Assembly Unitigs using 98% or 94% homology for overlap Scaffolding Consensus sequence Venter et al. (2001)

16 New uses for shotgun sequencing and assembly Multiple organisms at once Likely novel organisms Metagenomic Assembly Problems? Mate-pair data relied on more heavily, since overlap coverage is low or unknown Need verification of assembly somehow

17 Created multiple distinct assemblies – 98% homology unitigs – 94% homology unitigs –non-preassembled end-pairs at various stringencies for multiple sequence alignments Multiple assemblies allowed cross-referencing, quality assurance. Metagenomic Assembly

18 Taxonomic Assignment Protein-ORF based strategy 5.6 million sequences from GOS All ORFs in same sequence scaffold compared to NCBI protein database using BLAST Votes tallied from each ORF into pools for scaffold Archea, Bacteria, Eukaryota, Viral 5.0 million sequence assigned using this method

19 Quantitative PCR How many copies of studied proteins exist: from station to station? versus one another? http://www.invitrogen.com/content.cfm?pageid=10037

20 Quantitative PCR Level of fluorescence checked after each PCR cycle Initial amount can be inferred using standard curve Multiple dilutions allow comparison - Outcome reported only if: -- Ten-fold above no-template negative control AND -- 10 -2 dilution results in 3-30 more than 10 -3 dilution http://www.invitrogen.com/content.cfm?pageid=10037

21 Proteins clustered and compared to NCBI –Sequence alignments, not just domains –Gene families bolstered with new genes Phylogeny trees generated –Multiple sequence alignments CLUSTALW –Used only long, fairly homologous samples PHYLIP used to build trees –Based on difference matrix Clustering and Phylogeny

22 Results 37 marine surface water samples collected 7.7 million sequencing reads were produced Identified 154,662 viral peptide sequences

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24 Identification of Viral Sequences Data from microbial fraction of water samples was examined Looked for viral sequences by comparison to the NCBI non-redundant protein database 154,662 viral peptide sequences were identified Approximately 3% of predicted proteins were identified as viral sequences Number of viral sequences thought to be largely underestimated

25 Classification through Protein Clustering Of 154,662 viral peptide sequences, 117,123 or 76% fell within 380 protein clusters containing at least 20 proteins Remaining sequences fell within clusters containing less than 20 proteins Average cluster size contained 258 peptide sequences

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27 Neighbor Functional Linkage Analysis Used to verify that they were on viral instead of pro-viral regions of bacterial genomes Proportion of viral same-scaffold ORFs range from 32% to 92% for the metabolic gene families studied Occurrence of viral neighbors on same scaffolds as host- derived viral genes supports hypothesis that sources of the sequences are viruses rather than bacterial

28 Quantitative PCR qPCR used on DNA collected from 5 sampling locations Yields were initially too low, so samples were pooled Viral gene families psbD, petE, speD, talC, pstS, and phoH were included Results indicate that host-derived viral genes are viral in nature Viral genes encoding environmentally significant host- specific functions are prevalent in aquatic samples

29 Phylogenetic Analyses Figure 2. Phylogenetic trees of all GOS and publicly available psbA(A) and psbD(B) sequences. BS indicates bootstrap values. GOS and public viral sequences are colored aqua and pink respectively. GOS and public prokaryotic sequences are navy blue and lime green respectively. doi:10.1371/journal.pone.0001456.g002

30 Figure 3. Phylogenetic trees of all GOS and publicly available pstS(A) and talC(B) sequences. BS indicates bootstrap values. GOS and public viral sequences are colored aqua and pink respectively. GOS and public prokaryotic sequences are navy blue and lime green respectively. GOS eukaryotic sequences are colored yellow. doi:10.1371/journal.pone.0001456.g003

31 All viral gene families were positively correlated with water temperature Some viral gene families were correlated with salinity, water depth, and calculated trophic status indices Different environmental pressures may influence acquisition of these genes by viruses Table S7 shows the correlations between viral gene families and environmental parameters

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34 Discussion Most studies have focused on the filtered viral fraction of the data This is the first study to focus on the viral components in the microbial fraction of the data Strong evidence for abundance and distribution of environmentally important host-derived viral gene families Distribution patterns of host-derived viral families over environmental gradients Evidence of interactions between bacteriophage and host organisms

35 Detection of Viruses in Mircrobial Data Large viruses (0.1 µm–0.22 µm) get caught in the filters because of their size and geometric shape Small free living phages flow through the filter, but when viruses physically interacting with the microbes will be caught along with the microbes When filtrating large volumes, biomass accumulates on the filter and viruses get caught Most viruses found within the aquatic microbial communities studies seemed to be in the lytic infection cycle therefore they were actively replicating their DNA

36 Viruses with Metabolic Genes Through lateral gene transfer, metabolic genes can be acquired from the host Acquisition, retention, and expression of metabolic genes may increase fitness Key metabolic processes and pathways running during infection allows maximum replication Previous studies on host-derived metabolic viral genes has been on the photosynthesis genes psbA and psbD of a cyanophage Previous studies did not focus on abundance or distribution of these genes in the oceans

37 Host-Derived Metabolic Gene Families In aquatic viral communities sampled, host-derived genes were found widely distributed in significant proportions Quantitative PCR of the these genes confirmed high abundance Not known if these genes were expressed at the time of sampling Unlikely to see these genes in high abundance if they: –Were not expressed –Did not have a fitness advantage

38 “Suggests that viruses may play a more substantial role in environmentally relevant metabolic processes than previously recognized such as the conversion of light to energy, photoadaptation, phosphate acquisition, and carbon metabolism”

39 Potential Evolutionary Viral-Host Relationships The study of the cyanophage found that the host- derived genes undergo higher mutation rates than their cyanobacterial nucleotide counterpart After phage acquisition, the genes could diversify Mutated viral genes could form gene reservoirs for the host Through horizontal gene transfer, viruses could promote diversity and distribution

40 Prochlorococcus – P-SSM4-like Phage Prochlorococcus is one of the most widespread picophytoplankton in the ocean P-SSM4-like phage may influence the abundance, diversity, and distribution of Prochlorococcus Statistically significant relationship between the Prochlorococcus and the P-SSM4-like phage

41 Metagenomic Viral-Microbial Interactions This study of viral-microbial association between communities was coincidental Horizontal transfer of metabolic genes More studies necessary on the viral-microbial diversity and genetic complement –Community relationships –Evolutionary relationships

42 Any Questions?


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