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1. Impact of Dietary Resistant Starch on the Human Gut Microbiome, Metaproteome, and Metabolome.

Author

Maier, Tanja V, Lucio, Marianna, Lee, Lang Ho, VerBerkmoes, Nathan C, Brislawn, Colin J, Bernhardt, Jörg, Lamendella, Regina, McDermott, Jason E, Bergeron, Nathalie, Heinzmann, Silke S, Morton, James T, González, Antonio, Ackermann, Gail, Knight, Rob, Riedel, Katharina, Krauss, Ronald M, Schmitt-Kopplin, Philippe, and Jansson, Janet K

Subjects
Humans, Bacteria, Starch, Proteome, DNA, Bacterial, DNA, Ribosomal, RNA, Ribosomal, 16S, Diet, Sequence Analysis, DNA, Proteomics, Metabolomics, Metabolome, Microbiota, Gastrointestinal Microbiome, gut microbiome, human microbiome, multiomics, resistant starch, Nutrition, 1.1 Normal biological development and functioning, Oral and gastrointestinal, Metabolic and endocrine, Microbiology
Abstract

Diet can influence the composition of the human microbiome, and yet relatively few dietary ingredients have been systematically investigated with respect to their impact on the functional potential of the microbiome. Dietary resistant starch (RS) has been shown to have health benefits, but we lack a mechanistic understanding of the metabolic processes that occur in the gut during digestion of RS. Here, we collected samples during a dietary crossover study with diets containing large or small amounts of RS. We determined the impact of RS on the gut microbiome and metabolic pathways in the gut, using a combination of "omics" approaches, including 16S rRNA gene sequencing, metaproteomics, and metabolomics. This multiomics approach captured changes in the abundance of specific bacterial species, proteins, and metabolites after a diet high in resistant starch (HRS), providing key insights into the influence of dietary interventions on the gut microbiome. The combined data showed that a high-RS diet caused an increase in the ratio of Firmicutes to Bacteroidetes, including increases in relative abundances of some specific members of the Firmicutes and concurrent increases in enzymatic pathways and metabolites involved in lipid metabolism in the gut.IMPORTANCE This work was undertaken to obtain a mechanistic understanding of the complex interplay between diet and the microorganisms residing in the intestine. Although it is known that gut microbes play a key role in digestion of the food that we consume, the specific contributions of different microorganisms are not well understood. In addition, the metabolic pathways and resultant products of metabolism during digestion are highly complex. To address these knowledge gaps, we used a combination of molecular approaches to determine the identities of the microorganisms in the gut during digestion of dietary starch as well as the metabolic pathways that they carry out. Together, these data provide a more complete picture of the function of the gut microbiome in digestion, including links between an RS diet and lipid metabolism and novel linkages between specific gut microbes and their metabolites and proteins produced in the gut.

Published
2017

2. Comparative Omics and Trait Analyses of Marine Pseudoalteromonas Phages Advance the Phage OTU Concept

Author

Duhaime, Melissa B, Solonenko, Natalie, Roux, Simon, Verberkmoes, Nathan C, Wichels, Antje, and Sullivan, Matthew B

Subjects
Microbiology, Biological Sciences, Ecology, Genetics, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, phage, marine microbiology, particle-associated, comparative genomics, Pseudoalteromonas, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

Viruses influence the ecology and evolutionary trajectory of microbial communities. Yet our understanding of their roles in ecosystems is limited by the paucity of model systems available for hypothesis generation and testing. Further, virology is limited by the lack of a broadly accepted conceptual framework to classify viral diversity into evolutionary and ecologically cohesive units. Here, we introduce genomes, structural proteomes, and quantitative host range data for eight Pseudoalteromonas phages isolated from Helgoland (North Sea, Germany) and use these data to advance a genome-based viral operational taxonomic unit (OTU) definition. These viruses represent five new genera and inform 498 unaffiliated or unannotated protein clusters (PCs) from global virus metagenomes. In a comparison of previously sequenced Pseudoalteromonas phage isolates (n = 7) and predicted prophages (n = 31), the eight phages are unique. They share a genus with only one other isolate, Pseudoalteromonas podophage RIO-1 (East Sea, South Korea) and two Pseudoalteromonas prophages. Mass-spectrometry of purified viral particles identified 12-20 structural proteins per phage. When combined with 3-D structural predictions, these data led to the functional characterization of five previously unidentified major capsid proteins. Protein functional predictions revealed mechanisms for hijacking host metabolism and resources. Further, they uncovered a hybrid sipho-myovirus that encodes genes for Mu-like infection rarely described in ocean systems. Finally, we used these data to evaluate a recently introduced definition for virus populations that requires members of the same population to have >95% average nucleotide identity across at least 80% of their genes. Using physiological traits and genomics, we proposed a conceptual model for a viral OTU definition that captures evolutionarily cohesive and ecologically distinct units. In this trait-based framework, sensitive hosts are considered viral niches, while host ranges and infection efficiencies are tracked as viral traits. Quantitative host range assays revealed conserved traits within virus OTUs that break down between OTUs, suggesting the defined units capture niche and fitness differentiation. Together these analyses provide a foundation for model system-based hypothesis testing that will improve our understanding of marine copiotrophs, as well as phage-host interactions on the ocean particles and aggregates where Pseudoalteromonas thrive.

Published
2017

3. Illuminating structural proteins in viral “dark matter” with metaproteomics

Author

Brum, Jennifer R, Ignacio-Espinoza, J Cesar, Kim, Eun-Hae, Trubl, Gareth, Jones, Robert M, Roux, Simon, VerBerkmoes, Nathan C, Rich, Virginia I, and Sullivan, Matthew B

Subjects
Infection, Marine Biology, Proteomics, Viral Structural Proteins, Viruses, viruses, marine, proteins
Abstract

Viruses are ecologically important, yet environmental virology is limited by dominance of unannotated genomic sequences representing taxonomic and functional "viral dark matter." Although recent analytical advances are rapidly improving taxonomic annotations, identifying functional dark matter remains problematic. Here, we apply paired metaproteomics and dsDNA-targeted metagenomics to identify 1,875 virion-associated proteins from the ocean. Over one-half of these proteins were newly functionally annotated and represent abundant and widespread viral metagenome-derived protein clusters (PCs). One primarily unannotated PC dominated the dataset, but structural modeling and genomic context identified this PC as a previously unidentified capsid protein from multiple uncultivated tailed virus families. Furthermore, four of the five most abundant PCs in the metaproteome represent capsid proteins containing the HK97-like protein fold previously found in many viruses that infect all three domains of life. The dominance of these proteins within our dataset, as well as their global distribution throughout the world's oceans and seas, supports prior hypotheses that this HK97-like protein fold is the most abundant biological structure on Earth. Together, these culture-independent analyses improve virion-associated protein annotations, facilitate the investigation of proteins within natural viral communities, and offer a high-throughput means of illuminating functional viral dark matter.

Published
2016

4. Phage-induced expression of CRISPR-associated proteins is revealed by shotgun proteomics in Streptococcus thermophilus.

Author

Young, Jacque C, Dill, Brian D, Pan, Chongle, Hettich, Robert L, Banfield, Jillian F, Shah, Manesh, Fremaux, Christophe, Horvath, Philippe, Barrangou, Rodolphe, and Verberkmoes, Nathan C

Subjects
Streptococcus thermophilus, Bacteriophages, Bacterial Proteins, Proteomics, Time Factors, Inverted Repeat Sequences, Genetic Loci, Transcriptome, General Science & Technology
Abstract

The CRISPR/Cas system, comprised of clustered regularly interspaced short palindromic repeats along with their associated (Cas) proteins, protects bacteria and archaea from viral predation and invading nucleic acids. While the mechanism of action for this acquired immunity is currently under investigation, the response of Cas protein expression to phage infection has yet to be elucidated. In this study, we employed shotgun proteomics to measure the global proteome expression in a model system for studying the CRISPR/Cas response in S. thermophilus DGCC7710 infected with phage 2972. Host and viral proteins were simultaneously measured following inoculation at two different multiplicities of infection and across various time points using two-dimensional liquid chromatography tandem mass spectrometry. Thirty-seven out of forty predicted viral proteins were detected, including all proteins of the structural virome and viral effector proteins. In total, 1,013 of 2,079 predicted S. thermophilus proteins were detected, facilitating the monitoring of host protein synthesis changes in response to virus infection. Importantly, Cas proteins from all four CRISPR loci in the S. thermophilus DGCC7710 genome were detected, including loci previously thought to be inactive. Many Cas proteins were found to be constitutively expressed, but several demonstrated increased abundance following infection, including the signature Cas9 proteins from the CRISPR1 and CRISPR3 loci, which are key players in the interference phase of the CRISPR/Cas response. Altogether, these results provide novel insights into the proteomic response of S. thermophilus, specifically CRISPR-associated proteins, upon phage 2972 infection.

Published
2012

6. Ecological distribution and population physiology defined by proteomics in a natural microbial community.

Author

Mueller, Ryan S, Denef, Vincent J, Kalnejais, Linda H, Suttle, K Blake, Thomas, Brian C, Wilmes, Paul, Smith, Richard L, Nordstrom, D Kirk, McCleskey, R Blaine, Shah, Manesh B, Verberkmoes, Nathan C, Hettich, Robert L, and Banfield, Jillian F

Subjects
Bacteria, Biofilms, Bacterial Proteins, Proteome, Cluster Analysis, Proteomics, Ecosystem, Species Specificity, Bacterial Physiological Phenomena, community structure, metaproteomics, microbial ecology, model community, succession, Bioinformatics, Other Biological Sciences, Biochemistry and Cell Biology
Abstract

An important challenge in microbial ecology is developing methods that simultaneously examine the physiology of organisms at the molecular level and their ecosystem level interactions in complex natural systems. We integrated extensive proteomic, geochemical, and biological information from 28 microbial communities collected from an acid mine drainage environment and representing a range of biofilm development stages and geochemical conditions to evaluate how the physiologies of the dominant and less abundant organisms change along environmental gradients. The initial colonist dominates across all environments, but its proteome changes between two stable states as communities diversify, implying that interspecies interactions affect this organism's metabolism. Its overall physiology is robust to abiotic environmental factors, but strong correlations exist between these factors and certain subsets of proteins, possibly accounting for its wide environmental distribution. Lower abundance populations are patchier in their distribution, and proteomic data indicate that their environmental niches may be constrained by specific sets of abiotic environmental factors. This research establishes an effective strategy to investigate ecological relationships between microbial physiology and the environment for whole communities in situ.

Published
2010

7. A high-throughput de novo sequencing approach for shotgun proteomics using high-resolution tandem mass spectrometry

Author

Pan, Chongle, Park, Byung H, McDonald, William H, Carey, Patricia A, Banfield, Jillian F, VerBerkmoes, Nathan C, Hettich, Robert L, and Samatova, Nagiza F

Abstract

Abstract Background High-resolution tandem mass spectra can now be readily acquired with hybrid instruments, such as LTQ-Orbitrap and LTQ-FT, in high-throughput shotgun proteomics workflows. The improved spectral quality enables more accurate de novo sequencing for identification of post-translational modifications and amino acid polymorphisms. Results In this study, a new de novo sequencing algorithm, called Vonode, has been developed specifically for analysis of such high-resolution tandem mass spectra. To fully exploit the high mass accuracy of these spectra, a unique scoring system is proposed to evaluate sequence tags based primarily on mass accuracy information of fragment ions. Consensus sequence tags were inferred for 11,422 spectra with an average peptide length of 5.5 residues from a total of 40,297 input spectra acquired in a 24-hour proteomics measurement of Rhodopseudomonas palustris. The accuracy of inferred consensus sequence tags was 84%. According to our comparison, the performance of Vonode was shown to be superior to the PepNovo v2.0 algorithm, in terms of the number of de novo sequenced spectra and the sequencing accuracy. Conclusions Here, we improved de novo sequencing performance by developing a new algorithm specifically for high-resolution tandem mass spectral data. The Vonode algorithm is freely available for download at http://compbio.ornl.gov/Vonode.

Published
2010

10. Metaproteomics of a gutless marine worm and its symbiotic microbial community reveal unusual pathways for carbon and energy use

Author

Kleiner, Manuel, Wentrup, Cecilia, Lott, Christian, Teeling, Hanno, Wetzel, Silke, Young, Jacque, Chang, Yun-Juan, Shah, Manesh, VerBerkmoes, Nathan C., Zarzycki, Jan, Fuchs, Georg, Markert, Stephanie, Hempel, Kristina, Voigt, Birgit, Becher, Dörte, Liebeke, Manuel, Lalk, Michael, Albrecht, Dirk, Hecker, Michael, Schweder, Thomas, and Dubilier, Nicole

Published
2012

11. Niche of harmful alga Aureococcus anophagefferens revealed through ecogenomics

Author

Gobler, Christopher J., Berry, Dianna L., Dyhrman, Sonya T., Wilhelm, Steven W., Salamov, Asaf, Lobanov, Alexei V., Zhang, Yan, Collier, Jackie L., Wurch, Louie L., Kustka, Adam B., Dill, Brian D., Shah, Manesh, VerBerkmoes, Nathan C., Kuo, Alan, Terry, Astrid, Pangilinan, Jasmyn, Lindquist, Erika A., Lucas, Susan, Paulsen, Ian T., Hattenrath-Lehmann, Theresa K., Talmage, Stephanie C., Walker, Elyse A., Koch, Florian, Burson, Amanda M., Marcoval, Maria Alejandra, Tang, Ying-Zhong, LeCleir, Gary R., Coyne, Kathryn J., Berg, Gry M., Bertrand, Erin M., Saito, Mark A., Gladyshev, Vadim N., Grigoriev, Igor V., and Karl, David M.

Published
2011

12. Enigmatic, ultrasmall, uncultivated Archaea

Author

Baker, Brett J., Comolli, Luis R., Dick, Gregory J., Hauser, Loren J., Hyatt, Doug, Dill, Brian D., Land, Miriam L., VerBerkmoes, Nathan C., Hettich, Robert L., Banfield, Jillian F., and Pace, Norman R.

Published
2010

17. Differential accumulation of form I RubisCO in Rhodopseudomonas palustris CGA010 under photoheterotrophic growth conditions with reduced carbon sources

Author

Joshi, Gauri S., Romagnoli, Simona, VerBerkmoes, Nathan C., Hettich, Robert L., Pelletier, Dale, and Tabita, F. Robert

Subjects
Bacteria, Photosynthetic -- Genetic aspects, Bacteria, Photosynthetic -- Growth, Company growth, Biological sciences
Abstract

Rhodopseudomonas palustris is unique among characterized nonsulfur purple bacteria because of its capacity for anaerobic photoheterotrophic growth using aromatic acids. Like growth with other reduced electron donors, this growth typically requires the presence of bicarbonate/C[O.sub.2] or some other added electron acceptor in the growth medium. Proteomic studies indicated that there was specific accumulation of form I ribulose 1, 5-bisphosphate carboxylase/oxygenase (RubisCO) subunit proteins (CbbL and CbbS), as well as the CbbX protein, in cells grown on benzoate without added bicarbonate; such cells used the small amounts of dissolved C[O.sub.2] in the medium to support growth. These proteins were not observed in extracts from cells grown in the presence of high levels (10 mM) of added bicarbonate. To confirm the results of the proteomics studies, it was shown that the total RubisCO activity levels were significantly higher (five- to sevenfold higher) in wild-type (CGA010) cells grown on benzoate with a low level (0.5 mM) of added bicarbonate. Immunoblots indicated that the increase in RubisCO activity levels was due to a specific increase in the amount of form I RubisCO (CbbLS) and not in the amount of form II RubisCO (CbbM), which was constitutively expressed. Deletion of the main transcriptional regulator gene, cbbR, resulted in impaired growth on benzoate-containing low-bicarbonate media, and it was established that form I RubisCO synthesis was absolutely and specifically dependent on CbbR. To understand the regulatory role of the CbbRRS two-component system, strains with nonpolar deletions of the cbbRRS genes were grown on benzoate. Distinct from the results obtained with photoautotrophic growth conditions, the results of studies with various CbbRRS mutant strains indicated that this two-component system did not affect the observed enhanced synthesis of form I RubisCO under benzoate growth conditions. These studies indicate that diverse growth conditions differentially affect the ability of the CbbRRS two-component system to influence cbb transcription.

Published
2009

22. Comparative shotgun proteomic analysis of Clostridium acetobutylicum from butanol fermentation using glucose and xylose

Author

Verberkmoes Nathan C, Hettich Robert L, Shah Manesh, Raghavan Vijaya GS, Sivagnanam Kumaran, and Lefsrud Mark G

Subjects
Butanol, ABE fermentation, Clostridium acetobutylicum, shotgun proteomics, mass spectrometry, Cytology, QH573-671
Abstract

Abstract Background Butanol is a second generation biofuel produced by Clostridium acetobutylicum through acetone-butanol-ethanol (ABE) fermentation process. Shotgun proteomics provides a direct approach to study the whole proteome of an organism in depth. This paper focuses on shotgun proteomic profiling of C. acetobutylicum from ABE fermentation using glucose and xylose to understand the functional mechanisms of C. acetobutylicum proteins involved in butanol production. Results We identified 894 different proteins in C. acetobutylicum from ABE fermentation process by two dimensional - liquid chromatography - tandem mass spectrometry (2D-LC-MS/MS) method. This includes 717 proteins from glucose and 826 proteins from the xylose substrate. A total of 649 proteins were found to be common and 22 significantly differentially expressed proteins were identified between glucose and xylose substrates. Conclusion Our results demonstrate that flagellar proteins are highly up-regulated with glucose compared to xylose substrate during ABE fermentation. Chemotactic activity was also found to be lost with the xylose substrate due to the absence of CheW and CheV proteins. This is the first report on the shotgun proteomic analysis of C. acetobutylicum ATCC 824 in ABE fermentation between glucose and xylose substrate from a single time data point and the number of proteins identified here is more than any other study performed on this organism up to this report.

Published
2011
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23. Proteomics reveals a core molecular response of Pseudomonas putida F1 to acute chromate challenge

Author

McCarthy Andrea T, Zhang Bing, VerBerkmoes Nathan C, Thieman Stephanie B, Wickham Gene S, Chourey Karuna, Thompson Dorothea K, Rudisill Matt A, Shah Manesh, and Hettich Robert L

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Pseudomonas putida is a model organism for bioremediation because of its remarkable metabolic versatility, extensive biodegradative functions, and ubiquity in contaminated soil environments. To further the understanding of molecular pathways responding to the heavy metal chromium(VI) [Cr(VI)], the proteome of aerobically grown, Cr(VI)-stressed P. putida strain F1 was characterized within the context of two disparate nutritional environments: rich (LB) media and minimal (M9L) media containing lactate as the sole carbon source. Results Growth studies demonstrated that F1 sensitivity to Cr(VI) was impacted substantially by nutrient conditions, with a carbon-source-dependent hierarchy (lactate > glucose >> acetate) observed in minimal media. Two-dimensional HPLC-MS/MS was employed to identify differential proteome profiles generated in response to 1 mM chromate under LB and M9L growth conditions. The immediate response to Cr(VI) in LB-grown cells was up-regulation of proteins involved in inorganic ion transport, secondary metabolite biosynthesis and catabolism, and amino acid metabolism. By contrast, the chromate-responsive proteome derived under defined minimal growth conditions was characterized predominantly by up-regulated proteins related to cell envelope biogenesis, inorganic ion transport, and motility. TonB-dependent siderophore receptors involved in ferric iron acquisition and amino acid adenylation domains characterized up-regulated systems under LB-Cr(VI) conditions, while DNA repair proteins and systems scavenging sulfur from alternative sources (e.g., aliphatic sulfonates) tended to predominate the up-regulated proteome profile obtained under M9L-Cr(VI) conditions. Conclusions Comparative analysis indicated that the core molecular response to chromate, irrespective of the nutritional conditions tested, comprised seven up-regulated proteins belonging to six different functional categories including transcription, inorganic ion transport/metabolism, and amino acid transport/metabolism. These proteins might potentially serve as indicators of chromate stress in natural microbial communities.

Published
2010
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24. A high-throughput de novo sequencing approach for shotgun proteomics using high-resolution tandem mass spectrometry

Author

Banfield Jillian F, Carey Patricia A, McDonald William H, Park Byung H, Pan Chongle, VerBerkmoes Nathan C, Hettich Robert L, and Samatova Nagiza F

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background High-resolution tandem mass spectra can now be readily acquired with hybrid instruments, such as LTQ-Orbitrap and LTQ-FT, in high-throughput shotgun proteomics workflows. The improved spectral quality enables more accurate de novo sequencing for identification of post-translational modifications and amino acid polymorphisms. Results In this study, a new de novo sequencing algorithm, called Vonode, has been developed specifically for analysis of such high-resolution tandem mass spectra. To fully exploit the high mass accuracy of these spectra, a unique scoring system is proposed to evaluate sequence tags based primarily on mass accuracy information of fragment ions. Consensus sequence tags were inferred for 11,422 spectra with an average peptide length of 5.5 residues from a total of 40,297 input spectra acquired in a 24-hour proteomics measurement of Rhodopseudomonas palustris. The accuracy of inferred consensus sequence tags was 84%. According to our comparison, the performance of Vonode was shown to be superior to the PepNovo v2.0 algorithm, in terms of the number of de novo sequenced spectra and the sequencing accuracy. Conclusions Here, we improved de novo sequencing performance by developing a new algorithm specifically for high-resolution tandem mass spectral data. The Vonode algorithm is freely available for download at http://compbio.ornl.gov/Vonode.

Published
2010
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25. Comparative omics and trait analyses of marine Pseudoalteromonas phages advance the phage OTU concept

Author

Duhaime, Melissa, Solonenko, Natalie, Roux, Simon, Verberkmoes, Nathan C, Wichels, Antje, Sullivan, Matthew, Duhaime, Melissa, Solonenko, Natalie, Roux, Simon, Verberkmoes, Nathan C, Wichels, Antje, and Sullivan, Matthew

Abstract

Viruses influence the ecology and evolutionary trajectory of microbial communities. Yet our understanding of their roles in ecosystems is limited by the paucity of model systems available for hypothesis generation and testing. Further, virology is limited by the lack of a broadly accepted conceptual framework to classify viral diversity into evolutionary and ecologically cohesive units. Here, we introduce genomes, structural proteomes, and quantitative host range data for eight Pseudoalteromonas phages isolated from Helgoland (North Sea, Germany) and use these data to advance a genome-based viral operational taxonomic unit (OTU)definition. These viruses represent five new genera and inform 498 unaffiliated or unannotated protein clusters from global virus metagenomes. In a comparison of previously sequenced Pseudoalteromonas phage isolates (n = 7) and predicted prophages (n = 31),the eight phages are unique. They share a genus with only one other isolate, Pseudoalteromonas podophage RIO-1 (East Sea, South Korea) and two Pseudoalteromonas prophages. Mass-spectrometry of purified viral particles identified 12-20 structural proteins per phage. When combined with 3-D structural predictions, these data led to the functional characterization of five previously unidentified major capsid proteins. Protein functional predictions revealed mechanisms for hijacking host metabolism and resources. Further, they uncovered a hybrid sipho-myovirus that encodes genes for Mu-like infection rarely described in ocean systems. Finally, we used these data to evaluate a recently introduced definition for virus populations that requires members of the same population to have >95% average nucleotide identity (ANI) across at least 80% of their genes. Using physiological traits and genomics, we proposed a conceptual model for a viral OTU definition that captures evolutionarily cohesive and ecologically distinct units. In this trait-based framework, sensitive hosts are considered viral niches

Published
2017

26. Proteogenomic monitoring of Geobacter physiology during stimulated uranium bioremediation

Author

Wilkins, Michael J., VerBerkmoes, Nathan C., Williams, Kenneth H., Callister, Stephen J., Mouser, Paula J., Elifantz, Hila, N'Guessan, A. Lucie, Thomas, Brian C., Nicora, Carrie D., Shah, Manesh B., Abraham, Paul, Lipton, Mary S., Lovley, Derek R., Hettich, Robert L., Long, Philip E., and Banfield, Jillian F.

Subjects
Bioremediation -- Analysis, Mass spectrometry -- Usage, Iron bacteria -- Environmental aspects, Iron bacteria -- Physiological aspects, Uranium -- Environmental aspects, Biological sciences
Abstract

A proteomics-based approach to simultaneously document the strain membership and microbial physiology of the dominant Geobacter community members during in situ acetate amendment of the U-contaminated Rifle, CO, and aquifer is reported. The evolving Geobacter strain composition might be linked to changes in protein abundance over the course of biostimulation and might reflect changes in metabolic functioning.

Published
2009

27. Community genomic and proteomic analyses of chemoautotrophic iron-oxidizing 'Leptospirillum rubarum' (group II) and 'Leptospirillum ferrodiazotrophum' (group III) bacteria in acid mine drainage biofilms

Author

Goltsman, Daniela S. Aliaga, Denef, Vincent J., Singer, Steven W., VerBerkmoes, Nathan C., Lefsrud, Mark, Mueller, Ryan S., Dick, Gregory J., Sun, Christine L., Wheeler, Korin E., Zemla, Adam, Baker, Brett J., Hauser, Loren, Land, Miriam, Shah, Manesh B., Thelen, Michael P., Hettich, Robert L., and Banfield, Jillian F.

Subjects
Oxidation-reduction reaction -- Analysis, Proteomics -- Usage, Gram-negative bacteria -- Genetic aspects, Gram-negative bacteria -- Physiological aspects, Iron -- Chemical properties, Mine drainage -- Environmental aspects, Biological sciences
Abstract

The analysis of near-complete population (composite) genomic sequences for coexisting acidophilic iron-oxidizing Leptospirillum group II and III bacteria (phylum Nitrospirae) and an extrachromosomal plasmid from a Richmnd Mine, Iron Mountain, Ca, acid mine drainage biofilm is presented. Both the bacterial groups are found to have genes for community-essential functions, including carbon fixation and biosynthesis of vitamins, fatty acids, and biopolymers and multiple pathways for osmotic protection.

Published
2009

28. Characterization of cytochrome 579, an unusual cytochrome isolated from an iron-oxidizing microbial community

Author

Singer, Steven W., Chan, Clara S., Zemla, Adam, VerBerkmoes, Nathan C., Mona Hwang, Hettich, Robert L., Banfield, Jillian F., and Thelen, Michael P.

Subjects
Cytochromes -- Research, Electron transport -- Analysis, Iron -- Chemical properties, Oxidation-reduction reaction -- Analysis, Biological sciences
Abstract

The characterization of a novel, soluble cytochrome with an unusual visible signature at 579 nm (Cyt(579)) is described. The results suggested that Cyt(579) plays an important role as an electron transfer protein to shuttle electrons derived from Fe(II) oxidation to support critical metabolical functions in the acidophilic microbial community.

Published
2008

29. Life-style and genome structure of marine Pseudoalteromonas siphovirus B8b isolated from the northwestern Mediterranean Sea.

Author

Lara, Elena, Holmfeldt, Karin, Solonenko, Natalie, Sà, Elisabet Laia, Ignacio-Espinoza, J Cesar, Cornejo-Castillo, Francisco M, Verberkmoes, Nathan C, Vaqué, Dolors, Sullivan, Matthew B, Acinas, Silvia G, Lara, Elena, Holmfeldt, Karin, Solonenko, Natalie, Sà, Elisabet Laia, Ignacio-Espinoza, J Cesar, Cornejo-Castillo, Francisco M, Verberkmoes, Nathan C, Vaqué, Dolors, Sullivan, Matthew B, and Acinas, Silvia G

Abstract

Marine viruses (phages) alter bacterial diversity and evolution with impacts on marine biogeochemical cycles, and yet few well-developed model systems limit opportunities for hypothesis testing. Here we isolate phage B8b from the Mediterranean Sea using Pseudoalteromonas sp. QC-44 as a host and characterize it using myriad techniques. Morphologically, phage B8b was classified as a member of the Siphoviridae family. One-step growth analyses showed that this siphovirus had a latent period of 70 min and released 172 new viral particles per cell. Host range analysis against 89 bacterial host strains revealed that phage B8b infected 3 Pseudoalteromonas strains (52 tested, >99.9% 16S rRNA gene nucleotide identity) and 1 non-Pseudoaltermonas strain belonging to Alteromonas sp. (37 strains from 6 genera tested), which helps bound the phylogenetic distance possible in a phage-mediated horizontal gene transfer event. The Pseudoalteromonas phage B8b genome size was 42.7 kb, with clear structural and replication modules where the former were delineated leveraging identification of 16 structural genes by virion structural proteomics, only 4 of which had any similarity to known structural proteins. In nature, this phage was common in coastal marine environments in both photic and aphotic layers (found in 26.5% of available viral metagenomes), but not abundant in any sample (average per sample abundance was 0.65% of the reads). Together these data improve our understanding of siphoviruses in nature, and provide foundational information for a new 'rare virosphere' phage-host model system.

Published
2015
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31. Life-Style and Genome Structure of Marine Pseudoalteromonas Siphovirus B8b Isolated from the Northwestern Mediterranean Sea

Author

Lara, Elena, primary, Holmfeldt, Karin, additional, Solonenko, Natalie, additional, Sà, Elisabet Laia, additional, Ignacio-Espinoza, J. Cesar, additional, Cornejo-Castillo, Francisco M., additional, Verberkmoes, Nathan C., additional, Vaqué, Dolors, additional, Sullivan, Matthew B., additional, and Acinas, Silvia G., additional

Published
2015
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32. Discovery of a novel methanogen prevalent in thawing permafrost

Author

Mondav, Rhiannon, Woodcroft, Ben J., Kim, Eun-Hae, McCalley, Carmody K., Hodgkins, Suzanne B., Crill, Patrick M., Chanton, Jeffrey, Hurst, Gregory B., VerBerkmoes, Nathan C., Saleska, Scott R., Hugenholtz, Philip, Rich, Virginia I., Tyson, Gene W., Mondav, Rhiannon, Woodcroft, Ben J., Kim, Eun-Hae, McCalley, Carmody K., Hodgkins, Suzanne B., Crill, Patrick M., Chanton, Jeffrey, Hurst, Gregory B., VerBerkmoes, Nathan C., Saleska, Scott R., Hugenholtz, Philip, Rich, Virginia I., and Tyson, Gene W.

Abstract

Thawing permafrost promotes microbial degradation of cryo-sequestered and new carbon leading to the biogenic production of methane, creating a positive feedback to climate change. Here we determine microbial community composition along a permafrost thaw gradient in northern Sweden. Partially thawed sites were frequently dominated by a single archaeal phylotype, Candidatus ‘Methanoflorens stordalenmirensis’ gen. nov. sp. nov., belonging to the uncultivated lineage ‘Rice Cluster II’ (Candidatus ‘Methanoflorentaceae’ fam. nov.). Metagenomic sequencing led to the recovery of its near-complete genome, revealing the genes necessary for hydrogenotrophic methanogenesis. These genes are highly expressed and methane carbon isotope data are consistent with hydrogenotrophic production of methane in the partially thawed site. In addition to permafrost wetlands, ‘Methanoflorentaceae’ are widespread in high methane-flux habitats suggesting that this lineage is both prevalent and a major contributor to global methane production. In thawing permafrost, Candidatus ‘M. stordalenmirensis’ appears to be a key mediator of methane-based positive feedback to climate warming., IsoGenie

Published
2014
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33. One- and two- dimensional LC/MS/MS analysis of Arabidopsis thaliana proteome. (Biological: Advertising Supplement)

Author

VerBerkmoes, Nathan C., Hettich, Robert L., Bruce, Barry D., Nguyen, Reno, and Savage, Theresa L.

Subjects
Proteomics -- Research
Abstract

Proteome analysis requires robust separations and rapid protein identification. Currently, two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) followed by mass spectrometry (MS) analysis is the gold standard. Recently there has been [...]

Published
2002

34. Efficient LC separations of proteins and peptides for MS analysis. (Biological)

Author

VerBerkmoes, Nathan C., Hettich, Robert L., Savage, Theresa L., and Nguyen, Reno

Subjects
Food industry -- Methods, Peptides -- Methods
Abstract

Current proteomics and genomics research has spurred the pharmaceutical and biotechnology industries to keep up with technical demands. There is currently a need for robust liquid-phase separations of complex protein [...]

Published
2002

36. Discovery of a novel methanogen prevalent in thawing permafrost

Author

Mondav, Rhiannon, primary, Woodcroft, Ben J., additional, Kim, Eun-Hae, additional, McCalley, Carmody K., additional, Hodgkins, Suzanne B., additional, Crill, Patrick M., additional, Chanton, Jeffrey, additional, Hurst, Gregory B., additional, VerBerkmoes, Nathan C., additional, Saleska, Scott R., additional, Hugenholtz, Philip, additional, Rich, Virginia I., additional, and Tyson, Gene W., additional

Published
2014
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37. Integrated metagenomics/metaproteomics reveals human host-microbiota signatures of Crohn's disease

Author

Erickson, Alison R, Cantarel, Brandi L, Lamendella, Regina, Darzi, Youssef, Mongodin, Emmanuel F, Pan, Chongle, Shah, Manesh, Halfvarson, Jonas, Tysk, Curt, Henrissat, Bernard, Raes, Jeroen, Verberkmoes, Nathan C, Fraser, Claire M, Hettich, Robert L, Jansson, Janet K, Erickson, Alison R, Cantarel, Brandi L, Lamendella, Regina, Darzi, Youssef, Mongodin, Emmanuel F, Pan, Chongle, Shah, Manesh, Halfvarson, Jonas, Tysk, Curt, Henrissat, Bernard, Raes, Jeroen, Verberkmoes, Nathan C, Fraser, Claire M, Hettich, Robert L, and Jansson, Janet K

Abstract

Crohn's disease (CD) is an inflammatory bowel disease of complex etiology, although dysbiosis of the gut microbiota has been implicated in chronic immune-mediated inflammation associated with CD. Here we combined shotgun metagenomic and metaproteomic approaches to identify potential functional signatures of CD in stool samples from six twin pairs that were either healthy, or that had CD in the ileum (ICD) or colon (CCD). Integration of these omics approaches revealed several genes, proteins, and pathways that primarily differentiated ICD from healthy subjects, including depletion of many proteins in ICD. In addition, the ICD phenotype was associated with alterations in bacterial carbohydrate metabolism, bacterial-host interactions, as well as human host-secreted enzymes. This eco-systems biology approach underscores the link between the gut microbiota and functional alterations in the pathophysiology of Crohn's disease and aids in identification of novel diagnostic targets and disease specific biomarkers., Funding Agency:UH2DK83991

Published
2012
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38. Ecological distribution and population physiology defined by proteomics in a natural microbial community

Author

Mueller, Ryan S., Denef, Vincent J., Kalnejais, Linda H., Suttle, K. Blake, Thomas, Brian C., Wilmes, Paul, Smith, Richard L., Nordstrom, D. Kirk, McCleskey, R. Blaine, Shah, Manesh B., VerBerkmoes, Nathan C., Hettich, Robert L., Banfield, Jillian F., Mueller, Ryan S., Denef, Vincent J., Kalnejais, Linda H., Suttle, K. Blake, Thomas, Brian C., Wilmes, Paul, Smith, Richard L., Nordstrom, D. Kirk, McCleskey, R. Blaine, Shah, Manesh B., VerBerkmoes, Nathan C., Hettich, Robert L., and Banfield, Jillian F.

Abstract

An important challenge in microbial ecology is developing methods that simultaneously examine the physiology of organisms at the molecular level and their ecosystem level interactions in complex natural systems. We integrated extensive proteomic, geochemical, and biological information from 28 microbial communities collected from an acid mine drainage environment and representing a range of biofilm development stages and geochemical conditions to evaluate how the physiologies of the dominant and less abundant organisms change along environmental gradients. The initial colonist dominates across all environments, but its proteome changes between two stable states as communities diversify, implying that interspecies interactions affect this organism's metabolism. Its overall physiology is robust to abiotic environmental factors, but strong correlations exist between these factors and certain subsets of proteins, possibly accounting for its wide environmental distribution. Lower abundance populations are patchier in their distribution, and proteomic data indicate that their environmental niches may be constrained by specific sets of abiotic environmental factors. This research establishes an effective strategy to investigate ecological relationships between microbial physiology and the environment for whole communities in situ.

Published
2010

39. Metabolome-Proteome Differentiation Coupled to Microbial Divergence

Author

Wilmes, Paul, Bowen, Benjamin P., Thomas, Brian C., Mueller, Ryan S., Denef, Vincent J., VerBerkmoes, Nathan C., Hettich, Robert L., Northen, Trent R., Banfield, Jillian F., Wilmes, Paul, Bowen, Benjamin P., Thomas, Brian C., Mueller, Ryan S., Denef, Vincent J., VerBerkmoes, Nathan C., Hettich, Robert L., Northen, Trent R., and Banfield, Jillian F.

Abstract

Tandem high-throughput proteomics and metabolomics were employed to functionally characterize natural microbial biofilm communities. Distinct molecular signatures exist for each analyzed sample. Deconvolution of the high-resolution molecular data demonstrates that identified proteins and detected metabolites exhibit organism-specific correlation patterns. These patterns are reflective of the functional differentiation of two bacterial species that share the same genus and that co-occur in the sampled microbial communities. Our analyses indicate that the two species have similar niche breadths and are not in strong competition with one another. IMPORTANCE Natural microbial assemblages represent dynamic consortia that exhibit extensive complexity at all levels. In the present study, we demonstrate that correlations between protein and metabolite abundances allow the deconvolution of complex molecular data sets into shared and organism-specific contingents. We demonstrate that evolutionary divergence is associated with the restructuring of cellular metabolic networks, which in turn allows bacterial species to occupy distinct ecological niches. The apparent lack of interspecific competition may explain the extensive population-level genetic heterogeneity observed extensively within microbial communities. The reported findings have broad implications for the in-depth investigation of the ecology and evolution of distinct microbial community members and for leveraging the solution of cryptic metabolic processes in the future.

Published
2010

40. Characterization of cytochrome 579, an unusual cytochrome isolated from an iron-oxidizing microbial community

Author

Singer, Steven W., Chan, Clara S., Zemla, Adam, VerBerkmoes, Nathan C., Hwang, Mona, Hettich, Robert L., Banfield, Jillian F., Thelen, Michael P., Singer, Steven W., Chan, Clara S., Zemla, Adam, VerBerkmoes, Nathan C., Hwang, Mona, Hettich, Robert L., Banfield, Jillian F., and Thelen, Michael P.

Abstract

Author Posting. © American Society for Microbiology, 2008. This article is posted here by permission of American Society for Microbiology for personal use, not for redistribution. The definitive version was published in Applied and Environmental Microbiology 74 (2008): 4454-4462, doi:10.1128/AEM.02799-07., A novel, soluble cytochrome with an unusual visible spectral signature at 579 nm (Cyt579) has been characterized after isolation from several different microbial biofilms collected in an extremely acidic ecosystem. Previous proteogenomic studies of an Fe(II)-oxidizing community indicated that this abundant red cytochrome could be extracted from the biofilms with dilute sulfuric acid. Here, we found that the Fe(II)-dependent reduction of Cyt579 was thermodynamically favorable at a pH of >3, raising the possibility that Cyt579 acts as an accessory protein for electron transfer. The results of transmission electron microscopy of immunogold-labeled biofilm indicated that Cyt579 is localized near the bacterial cell surface, consistent with periplasmic localization. The results of further protein analysis of Cyt579, using preparative chromatofocusing and sodium dodecyl sulfate-polyacrylamide gel electrophoresis, revealed three forms of the protein that correspond to different N-terminal truncations of the amino acid sequence. The results of intact-protein analysis corroborated the posttranslational modifications of these forms and identified a genomically uncharacterized Cyt579 variant. Homology modeling was used to predict the overall cytochrome structure and heme binding site; the positions of nine amino acid substitutions found in three Cyt579 variants all map to the surface of the protein and away from the heme group. Based on this detailed characterization of Cyt579, we propose that Cyt579 acts as an electron transfer protein, shuttling electrons derived from Fe(II) oxidation to support critical metabolic functions in the acidophilic microbial community., Funding was provided by the U.S. Department of Energy, Office of Science, from the Genomics: GTL Program, grant DE-FG02-05ER64134, to J.F.B., R.L.H., and M.P.T. Work at LLNL was performed under the auspices of the U.S. Department of Energy under contract DE-AC52-07NA27344.

Published
2009

41. Shotgun metaproteomics of the human distal gut microbiota

Author

Verberkmoes, Nathan C., Russell, Alison L., Shah, Manesh, Godzik, Adam, Rosenquist, Magnus, Halfvarson, Jonas, Lefsrud, Mark G., Apajalahti, Juha, Tysk, Curt, Hettich, Robert L., Jansson, Janet K., Verberkmoes, Nathan C., Russell, Alison L., Shah, Manesh, Godzik, Adam, Rosenquist, Magnus, Halfvarson, Jonas, Lefsrud, Mark G., Apajalahti, Juha, Tysk, Curt, Hettich, Robert L., and Jansson, Janet K.

Abstract

The human gut contains a dense, complex and diverse microbial community, comprising the gut microbiome. Metagenomics has recently revealed the composition of genes in the gut microbiome, but provides no direct information about which genes are expressed or functioning. Therefore, our goal was to develop a novel approach to directly identify microbial proteins in fecal samples to gain information about the genes expressed and about key microbial functions in the human gut. We used a non-targeted, shotgun mass spectrometry-based whole community proteomics, or metaproteomics, approach for the first deep proteome measurements of thousands of proteins in human fecal samples, thus demonstrating this approach on the most complex sample type to date. The resulting metaproteomes had a skewed distribution relative to the metagenome, with more proteins for translation, energy production and carbohydrate metabolism when compared to what was earlier predicted from metagenomics. Human proteins, including antimicrobial peptides, were also identified, providing a non-targeted glimpse of the host response to the microbiota. Several unknown proteins represented previously undescribed microbial pathways or host immune responses, revealing a novel complex interplay between the human host and its associated microbes.

Published
2009
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42. Community proteogenomics highlights microbial strain-variant protein expression within activated sludge performing enhanced biological phosphorus removal

Author

Wilmes, Paul, Andersson, Anders F., Lefsrud, Mark G., Wexler, Margaret, Shah, Manesh, Zhang, Bing, Hettich, Robert L., Bond, Philip L., VerBerkmoes, Nathan C., Banfield, Jillian F., Wilmes, Paul, Andersson, Anders F., Lefsrud, Mark G., Wexler, Margaret, Shah, Manesh, Zhang, Bing, Hettich, Robert L., Bond, Philip L., VerBerkmoes, Nathan C., and Banfield, Jillian F.

Abstract

Enhanced biological phosphorus removal (EBPR) selects for polyphosphate accumulating microorganisms to achieve phosphate removal from wastewater. We used high-resolution community proteomics to identify key metabolic pathways in 'Candidatus Accumulibacter phosphatis' (A. phosphatis)-mediated EBPR and to evaluate the contributions of co-existing strains within the dominant population. Overall, 702 proteins from the A. phosphatis population were identified. Results highlight the importance of denitrification, fatty acid cycling and the glyoxylate bypass in EBPR. Strong similarity in protein profiles under anaerobic and aerobic conditions was uncovered (only 3% of A. phosphatis-associated proteins exhibited statistically significant abundance differences). By comprehensive genome-wide alignment of 13 930 orthologous proteins, we uncovered substantial differences in protein abundance for enzyme variants involved in both core-metabolism and EBPR-specific pathways among the A. phosphatis population. These findings suggest an essential role for genetic diversity in maintaining the stable performance of EBPR systems and, hence, demonstrate the power of integrated cultivation-independent genomics and proteomics for the analysis of complex biotechnological systems.

Published
2008

45. Biostimulation induces syntrophic interactions that impact C, S and N cycling in a sediment microbial community

Author

Handley, Kim M, primary, VerBerkmoes, Nathan C, additional, Steefel, Carl I, additional, Williams, Kenneth H, additional, Sharon, Itai, additional, Miller, Christopher S, additional, Frischkorn, Kyle R, additional, Chourey, Karuna, additional, Thomas, Brian C, additional, Shah, Manesh B, additional, Long, Philip E, additional, Hettich, Robert L, additional, and Banfield, Jillian F, additional

Published
2012
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46. Integrated Metagenomics/Metaproteomics Reveals Human Host-Microbiota Signatures of Crohn's Disease

Author

Erickson, Alison R., primary, Cantarel, Brandi L., additional, Lamendella, Regina, additional, Darzi, Youssef, additional, Mongodin, Emmanuel F., additional, Pan, Chongle, additional, Shah, Manesh, additional, Halfvarson, Jonas, additional, Tysk, Curt, additional, Henrissat, Bernard, additional, Raes, Jeroen, additional, Verberkmoes, Nathan C., additional, Fraser, Claire M., additional, Hettich, Robert L., additional, and Jansson, Janet K., additional

Published
2012
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48. Strategies for Metagenomic-Guided Whole-Community Proteomics of Complex Microbial Environments

Author

Cantarel, Brandi L., primary, Erickson, Alison R., additional, VerBerkmoes, Nathan C., additional, Erickson, Brian K., additional, Carey, Patricia A., additional, Pan, Chongle, additional, Shah, Manesh, additional, Mongodin, Emmanuel F., additional, Jansson, Janet K., additional, Fraser-Liggett, Claire M., additional, and Hettich, Robert L., additional

Published
2011
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49. Microbes in thawing permafrost: the unknown variable in the climate change equation

Author

Graham, David E, primary, Wallenstein, Matthew D, additional, Vishnivetskaya, Tatiana A, additional, Waldrop, Mark P, additional, Phelps, Tommy J, additional, Pfiffner, Susan M, additional, Onstott, Tullis C, additional, Whyte, Lyle G, additional, Rivkina, Elizaveta M, additional, Gilichinsky, David A, additional, Elias, Dwayne A, additional, Mackelprang, Rachel, additional, VerBerkmoes, Nathan C, additional, Hettich, Robert L, additional, Wagner, Dirk, additional, Wullschleger, Stan D, additional, and Jansson, Janet K, additional

Published
2011
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