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2. Microbial Species that Initially Colonize the Human Gut at Birth or in Early Childhood Can Stay in Human Body for Lifetime.

Author

Li, Weizhong and Nelson, Karen E.

Subjects
*CHILDBIRTH, *SINGLE nucleotide polymorphisms, *HUMAN body, *OLDER people, *GUT microbiome, *FETOFETAL transfusion, *TWINS
Abstract

In recent years, many studies have described the composition and function of the human microbiome at different body sites and suggested a role for the microbiome in various diseases and health conditions. Some studies, using longitudinal samples, have also suggested how the microbiome changes over time due to disease, diet, development, travel, and other environmental factors. However, to date, no study has demonstrated whether the microorganisms established at birth or in early childhood, either transmitted from parents or obtained from the environment, can stay in the human body until adult or senior age. To directly answer this question is difficult, because microbiome samples at childhood and at later adulthood for the same individual will need to be compared and the field is not old enough to have allowed for that type of sample collection. Here, using a metagenomic approach, we analyzed 1004 gut microbiome samples from senior adults (65 ± 7.8 years) from the TwinsUK cohort. Our data indicate that many species in the human gut acquired in early childhood can stay for a lifetime until senior ages. We identified the rare genomic variants (single nucleotide variation and indels) for 27 prevalent species with enough sequencing coverage for confident genomic variant identification. We found that for some species, twin pairs, including both monozygotic (MZ) and dizygotic (DZ) twins, share significantly more rare variants than unrelated subject pairs. But no significant difference is found between MZ and DZ twin pairs. These observations strongly suggest that these species acquired in early childhood remained in these persons until senior adulthood. [ABSTRACT FROM AUTHOR]

Published
2021
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3. Oral Microbial Species and Virulence Factors Associated with Oral Squamous Cell Carcinoma.

Author

Torralba, Manolito G., Aleti, Gajender, Li, Weizhong, Moncera, Kelvin Jens, Lin, Yi-Han, Yu, Yanbao, Masternak, Michal M., Golusinski, Wojciech, Golusinski, Pawel, Lamperska, Katarzyna, Edlund, Anna, Freire, Marcelo, and Nelson, Karen E.

Subjects
MICROBIAL virulence, SQUAMOUS cell carcinoma, CARCINOGENESIS, ORAL cancer, HUMAN microbiota
Abstract

The human microbiome has been the focus of numerous research efforts to elucidate the pathogenesis of human diseases including cancer. Oral cancer mortality is high when compared with other cancers, as diagnosis often occurs during late stages. Its prevalence has increased in the USA over the past decade and accounts for over 40,000 new cancer patients each year. Additionally, oral cancer pathogenesis is not fully understood and is likely multifactorial. To unravel the relationships that are associated with the oral microbiome and their virulence factors, we used 16S rDNA and metagenomic sequencing to characterize the microbial composition and functional content in oral squamous cell carcinoma (OSCC) tumor tissue, non-tumor tissue, and saliva from 18 OSCC patients. Results indicate a higher number of bacteria belonging to the Fusobacteria, Bacteroidetes, and Firmicutes phyla associated with tumor tissue when compared with all other sample types. Additionally, saliva metaproteomics revealed a significant increase of Prevotella in five OSCC subjects, while Corynebacterium was mostly associated with ten healthy subjects. Lastly, we determined that there are adhesion and virulence factors associated with Streptococcus gordonii as well as from known oral pathogens belonging to the Fusobacterium genera found mostly in OSCC tissues. From these results, we propose that not only will the methods utilized in this study drastically improve OSCC diagnostics, but the organisms and specific virulence factors from the phyla detected in tumor tissue may be excellent biomarkers for characterizing disease progression. [ABSTRACT FROM AUTHOR]

Published
2021
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4. Characterizing Microbial Signatures on Sculptures and Paintings of Similar Provenance.

Author

Torralba, Manolito G., Kuelbs, Claire, Moncera, Kelvin Jens, Roby, Rhonda, and Nelson, Karen E.

Subjects
MICROBIOLOGY, MICROORGANISM populations, MOLECULAR biology, MICROBIAL communities, POLYMERASE chain reaction
Abstract

The preservation of artwork challenges museums, collectors, and art enthusiasts. Currently, reducing moisture, adjusting the type of lighting, and preventing the formation of mold are primary methods to preserving and preventing deterioration. Other methods such as ones based in detailed knowledge of molecular biology such as microbial community characterization using polymerase chain reaction (PCR) and sequencing have yet to be explored. Such molecular biology approaches are essential to explore as some environmental bacteria are capable of oxidizing nonpolar chemical substances rich in hydrocarbons such as oil-based paints. Using 16S rDNA Illumina Sequencing, we demonstrate a novel finding that there are differing bacterial communities for artwork from roughly the same era when comparing paintings on wood, paintings on canvases, and sculptures made of stone and marble. We also demonstrate that there are specific genera such as Aeromonas known for having oxidase positive strains, present on paintings on wood and paintings on canvas that could potentially be responsible for deterioration and fading as such organisms produce water or hydrogen peroxide as a byproduct of cytochrome c oxidase activity. The advantages of these genomics-based approaches to characterizing the microbial population on deteriorating artwork provides immense potential by identifying potentially damaging species that may not be detected using conventional methods in addition to addressing challenges to identification, restoration, and preservation efforts. [ABSTRACT FROM AUTHOR]

Published
2021
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5. Protein signatures from blood plasma and urine suggest changes in vascular function and IL-12 signaling in elderly with a history of chronic diseases compared with an age-matched healthy cohort.

Author

Yu, Yanbao, Singh, Harinder, Kwon, Keehwan, Tsitrin, Tamara, Petrini, Joann, Nelson, Karen E., and Pieper, Rembert

Subjects
BLOOD plasma, CELLULAR aging, CHRONIC diseases, HUMORAL immunity, EPHRIN receptors, OLDER people, FOREST declines
Abstract

Key processes characterizing human aging are immunosenescence and inflammaging. The capacity of the immune system to adequately respond to external perturbations (e.g., pathogens, injuries, and biochemical irritants) and to repair somatic mutations that may cause cancers or cellular senescence declines. An important goal remains to identify genetic or biochemical, predictive biomarkers for healthy aging. We recruited two cohorts in the age range 70 to 82, one afflicted by chronic illnesses (non-healthy aging, NHA) and the other in good health (healthy aging, HA). NHA criteria included major cardiovascular, neurodegenerative, and chronic pulmonary diseases, diabetes, and cancers. Quantitative analysis of forty proinflammatory cytokines in blood plasma and more than 500 proteins in urine was performed to identify candidate biomarkers for and biological pathway implications of healthy aging. Nine cytokines revealed lower quantities in blood plasma for the NHA compared with the HA groups (fold change > 1.5; p value < 0.025) including IL-12p40 and IL-12p70. We note that, sampling at two timepoints, intra-individual cytokine abundance patterns clustered in 86% of all 60 cases, indicative of person-specific, highly controlled multi-cytokine signatures in blood plasma. Twenty-three urinary proteins were differentially abundant (HA versus NHA; fold change > 1.5; p value < 0.01). Among the proteins increased in abundance in the HA cohort were glycoprotein MUC18, ephrin type-B receptor 4, matrix remodeling–associated protein 8, angiopoietin-related protein 2, K-cadherin, and plasma protease C1 inhibitor. These proteins have been linked to the extracellular matrix, cell adhesion, and vascular remodeling and repair processes. In silico network analysis identified the regulation of coagulation, antimicrobial humoral immune responses, and the IL-12 signaling pathway as enriched GO terms. To validate links of these preliminary biomarkers and IL-12 signaling with healthy aging, clinical studies using larger cohorts and functional characterization of the genes/proteins in cellular models of aging need to be conducted. [ABSTRACT FROM AUTHOR]

Published
2021
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6. Microbiome disturbance and resilience dynamics of the upper respiratory tract during influenza A virus infection.

Author

Kaul, Drishti, Rathnasinghe, Raveen, Ferres, Marcela, Tan, Gene S., Barrera, Aldo, Pickett, Brett E., Methe, Barbara A., Das, Suman, Budnik, Isolda, Halpin, Rebecca A., Wentworth, David, Schmolke, Mirco, Mena, Ignacio, Albrecht, Randy A., Singh, Indresh, Nelson, Karen E., García-Sastre, Adolfo, Dupont, Chris L., and Medina, Rafael A.

Subjects
VIRUS diseases, RESPIRATORY infections, INFLUENZA A virus, FERRET, DISEASE exacerbation
Abstract

Infection with influenza can be aggravated by bacterial co-infections, which often results in disease exacerbation. The effects of influenza infection on the upper respiratory tract (URT) microbiome are largely unknown. Here, we report a longitudinal study to assess the temporal dynamics of the URT microbiomes of uninfected and influenza virus-infected humans and ferrets. Uninfected human patients and ferret URT microbiomes have stable healthy ecostate communities both within and between individuals. In contrast, infected patients and ferrets exhibit large changes in bacterial community composition over time and between individuals. The unhealthy ecostates of infected individuals progress towards the healthy ecostate, coinciding with viral clearance and recovery. Pseudomonadales associate statistically with the disturbed microbiomes of infected individuals. The dynamic and resilient microbiome during influenza virus infection in multiple hosts provides a compelling rationale for the maintenance of the microbiome homeostasis as a potential therapeutic target to prevent IAV associated bacterial co-infections. Influenza A virus (IAV) infection can be exacerbated by bacterial co-infections but the effect of IAV on the upper respiratory tract (URT) microbiome remains unclear. Here, the authors compare the dynamics of the UTR microbiome in IAV-infected ferrets and humans, finding similar trends at the ecosystem and individual taxon level in both hosts. [ABSTRACT FROM AUTHOR]

Published
2020
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7. Longitudinal Study of Oral Microbiome Variation in Twins.

Author

Freire, Marcelo, Moustafa, Ahmed, Harkins, Derek M., Torralba, Manolito G., Zhang, Yun, Leong, Pamela, Saffery, Richard, Bockmann, Michelle, Kuelbs, Claire, Hughes, Toby, Craig, Jeffrey M., and Nelson, Karen E.

Subjects
HUMAN microbiota, DNA, CHRONIC diseases, ACTINOMYCES, CAPNOCYTOPHAGA
Abstract

Humans are host to a multitude of microorganisms that rapidly populate the body at birth, subject to a complex interplay that is dependent on host genetics, lifestyle, and environment. The host-associated microbiome, including the oral microbiome, presents itself in a complex ecosystem important to health and disease. As the most common chronic disease globally, dental caries is induced by host-microbial dysbiosis in children and adults. Multiple biological and environmental factors are likely to impact disease predisposition, onset, progression, and severity, yet longitudinal studies able to capture these influences are missing. To investigate how host genetics and environment influenced the oral microbial communities over time, we profiled supragingival plaque microbiomes of dizygotic and monozygotic twins during 3 visits over 12-months. Dental plaque DNA samples were amplified by targeting the 16S rRNA gene V4 region, and microbial findings were correlated with clinical, diet and genetic metadata. We observed that the oral microbiome variances were shaped primarily by the environment when compared to host genetics. Among the environmental factors shaping microbial changes of our subjects, significant metadata included age of the subject, and the age by which subjects initiated brushing habits, and the types of actions post-brushing. Relevant heritability of the microbiome included Actinomyces and Capnocytophaga in monozygotic twins and Kingella in dizygotic twins. Corynebacterium and Veillonella abundances were associated with age, whereas Aggregatibacter was associated with younger subjects. Streptococcus abundance showed an inverse association over time, and Selenomonas abundances increased with brushing frequency per day. Unraveling the exact biological mechanisms in caries has the potential to reveal novel host-microbial biomarkers, pathways, and targets important to effective preventive measures, and early disease control in children. [ABSTRACT FROM AUTHOR]

Published
2020
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8. Persistent Gut Microbial Dysbiosis in Children with Acute Lymphoblastic Leukemia (ALL) During Chemotherapy.

Author

Rajagopala, Seesandra V., Singh, Harinder, Yu, Yanbao, Zabokrtsky, Keri B., Torralba, Manolito G., Moncera, Kelvin J., Frank, Bryan, Pieper, Rembert, Sender, Leonard, and Nelson, Karen E.

Subjects
LYMPHOBLASTIC leukemia, ACUTE leukemia, CANCER chemotherapy, GUT microbiome, ANTIBIOTIC prophylaxis
Abstract

Prophylactic or therapeutic antibiotic use along with chemotherapy treatment potentially has a long-standing adverse effect on the resident gut microbiota. We have established a case-control cohort of 32 pediatric and adolescent acute lymphoblastic leukemia (ALL) patients and 25 healthy siblings (sibling controls) to assess the effect of chemotherapy as well as antibiotic prophylaxis on the gut microbiota. We observe that the microbiota diversity and richness of the ALL group is significantly lower than that of the control group at diagnosis and during chemotherapy. The microbiota diversity is even lower in antibiotics-exposed ALL patients. Although the gut microbial diversity tends to stabilize after 1-year post-chemotherapy, their abundances were altered because of chemotherapy and prophylactic antibiotic treatments. Specifically, the abundances of mucolytic gram-positive anaerobic bacteria, including Ruminococcus gnavus and Ruminococcus torques, tended to increase during the chemotherapy regimen and continued to be elevated 1 year beyond the initiation of chemotherapy. This dysbiosis may contribute to the development of gastrointestinal complications in ALL children following chemotherapy. These findings set the stage to further understand the role of the gut microbiome dynamics in ALL patients and their potential role in alleviating some of the adverse side effects of chemotherapy and antibiotics use in immunocompromised children. [ABSTRACT FROM AUTHOR]

Published
2020
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9. Gastro-intestinal and oral microbiome signatures associated with healthy aging.

Author

Singh, Harinder, Torralba, Manolito G., Moncera, Kelvin J., DiLello, Lauren, Petrini, Joann, Nelson, Karen E., and Pieper, Rembert

Subjects
GUT microbiome, MICROBIAL diversity, OLD age, CARDIOVASCULAR diseases
Abstract

The human oral and gut microbiomes influence health via competition for a distinct niche in the body with pathogens, via metabolic capabilities that increase host digestive capacity and generate compounds engaged in signaling pathways and modulation of immune system functions. Old age alters our metabolic and regenerative capacity. Following recruitment of 65 human subjects in the age range of 70 to 82, we discerned healthy aging (HA) and non-healthy aging (NHA) cohorts discordant in the occurrence of one or more major diseases: (1) cancer, (2) acute or chronic cardiovascular diseases, (3) acute or chronic pulmonary diseases, (4) diabetes, and (5) stroke or neurodegenerative disorders. We analyzed these cohorts' oral microbiomes (saliva) and gut microbiomes (stool) to assess diversity and identify microbial biomarkers for HA. In contrast to the gut microbiome where no change was observed, we found that the saliva microbiome had higher α-diversity in the HA compared with the NHA group. We observed the genus Akkermansia to be significantly more abundant in the gut microbiota of the HA group. Akkermansia muciniphila is a colonic mucin-degrading bacterium believed to have beneficial effects on gastrointestinal health, particularly in the context of diabetes and obesity. Erysipelotrichaceae UCG-003 was a taxon increased in abundance in the HA cohort. Streptococcus was the only genus observed to be significantly decreased in abundance in both the gut and oral microbiomes of the HA cohort compared with the NHA cohort. Our data support the notion that these microbes are potential probiotics to decrease the risks of non-healthy aging. [ABSTRACT FROM AUTHOR]

Published
2019
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10. Co-occurrence of Anaerobes in Human Chronic Wounds.

Author

Choi, Yongwook, Banerjee, Anirban, McNish, Sean, Couch, Kara S., Torralba, Manolito G., Lucas, Sarah, Tovchigrechko, Andrey, Madupu, Ramana, Yooseph, Shibu, Nelson, Karen E., Shanmugam, Victoria K., and Chan, Agnes P.

Subjects
ANAEROBIC bacteria, WOUND care, WOUND healing, AUTOIMMUNE diseases, RIBOSOMAL RNA
Abstract

Chronic wounds are wounds that have failed to heal after 3 months of appropriate wound care. Previous reports have identified a diverse collection of bacteria in chronic wounds, and it has been postulated that bacterial profile may contribute to delayed healing. The purpose of this study was to perform a microbiome assessment of the Wound Healing and Etiology (WE-HEAL) Study cohort, including underlying comorbidities less commonly studied in the context of chronic wounds, such as autoimmune diseases, and investigate possible relationships of the wound microbiota with clinical healing trends. We examined chronic wound specimens from 60 patients collected through the WE-HEAL Study using 16S ribosomal RNA gene sequencing. A group of co-occurring obligate anaerobes was identified from taxonomic analysis guided by Dirichlet multinomial mixtures (DMM) modeling. The group includes members of the Gram-positive anaerobic cocci (GPAC) of the Clostridia class (i.e., Anaerococcus, Finegoldia, and Peptoniphilus) and additional strict anaerobes (i.e., Porphyromonas and Prevotella). We showed that the co-occurring group of obligate anaerobes not only co-exists with commonly identified wound species (such as Staphylococcus aureus, Staphylococcus epidermidis, Pseudomonas, Corynebacterium, and Streptococcus), but importantly, they could also predominate the wound microbiota. Furthermore, examination of clinical comorbidities of the WE-HEAL specimens showed that specific obligate and facultative anaerobes were significantly reduced in wounds presented with autoimmune disease. With respect to future healing trends, no association with the wound microbiome community or the abundance of individual wound species could be established. In conclusion, we identified a co-occurring obligate anaerobic community type that predominated some human chronic wounds and underrepresentation of anaerobes in wounds associated with autoimmune diseases. Possible elucidation of host environments or key factors that influence anaerobe colonization warrants further investigation in a larger cohort. [ABSTRACT FROM AUTHOR]

Published
2019
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11. Genomic insights into the Ixodes scapularis tick vector of Lyme disease

Author

Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., de la Fuente, Jose, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllon, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzon-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderon, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M. S., Kim, Donghun, Kocan, Katherine M., Koci, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sanchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Simo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vazquez, Jesus, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian Jake, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, Hill, Catherine A., Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., de la Fuente, Jose, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllon, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzon-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderon, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M. S., Kim, Donghun, Kocan, Katherine M., Koci, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sanchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Simo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vazquez, Jesus, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian Jake, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, and Hill, Catherine A.

Abstract

Ticks transmit more pathogens to humans and animals than any other arthropod. We describe the 2.1 Gbp nuclear genome of the tick, Ixodes scapularis (Say), which vectors pathogens that cause Lyme disease, human granulocytic anaplasmosis, babesiosis and other diseases. The large genome reflects accumulation of repetitive DNA, new lineages of retro-transposons, and gene architecture patterns resembling ancient metazoans rather than pancrustaceans. Annotation of scaffolds representing similar to 57% of the genome, reveals 20,486 protein-coding genes and expansions of gene families associated with tick-host interactions. We report insights from genome analyses into parasitic processes unique to ticks, including host 'questing', prolonged feeding, cuticle synthesis, blood meal concentration, novel methods of haemoglobin digestion, haem detoxification, vitellogenesis and prolonged off-host survival. We identify proteins associated with the agent of human granulocytic anaplasmosis, an emerging disease, and the encephalitis-causing Langat virus, and a population structure correlated to life-history traits and transmission of the Lyme disease agent.

Published
2016
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12. Genomic insights into the Ixodes scapularis tick vector of Lyme disease

Author

Biochemistry, Fralin Life Sciences Institute, Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., de la Fuente, Jose, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllon, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzon-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderon, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M. S., Kim, Donghun, Kocan, Katherine M., Koci, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sanchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Simo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vazquez, Jesus, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian Jake, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, Hill, Catherine A., Biochemistry, Fralin Life Sciences Institute, Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., de la Fuente, Jose, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllon, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzon-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderon, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M. S., Kim, Donghun, Kocan, Katherine M., Koci, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sanchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Simo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vazquez, Jesus, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian Jake, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, and Hill, Catherine A.

Abstract

Ticks transmit more pathogens to humans and animals than any other arthropod. We describe the 2.1 Gbp nuclear genome of the tick, Ixodes scapularis (Say), which vectors pathogens that cause Lyme disease, human granulocytic anaplasmosis, babesiosis and other diseases. The large genome reflects accumulation of repetitive DNA, new lineages of retro-transposons, and gene architecture patterns resembling ancient metazoans rather than pancrustaceans. Annotation of scaffolds representing similar to 57% of the genome, reveals 20,486 protein-coding genes and expansions of gene families associated with tick-host interactions. We report insights from genome analyses into parasitic processes unique to ticks, including host 'questing', prolonged feeding, cuticle synthesis, blood meal concentration, novel methods of haemoglobin digestion, haem detoxification, vitellogenesis and prolonged off-host survival. We identify proteins associated with the agent of human granulocytic anaplasmosis, an emerging disease, and the encephalitis-causing Langat virus, and a population structure correlated to life-history traits and transmission of the Lyme disease agent.

Published
2016

13. Genomic insights into the Ixodes scapularis tick vector of Lyme disease

Author

National Institute of Allergy and Infectious Diseases (US), National Institutes of Health (US), Department of Health and Human Services (US), Australian Research Council, Ministerio de Ciencia e Innovación (España), National Science Foundation (US), Xunta de Galicia, European Commission, Department of Agriculture (US), Texas AgriLife Research, European Research Council, Swiss National Science Foundation, Boehringer Ingelheim Fonds, Fundação para a Ciência e a Tecnologia (Portugal), Lundbeck Foundation, Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., Fuente, José de la, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllón, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzón-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderón, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M .S., Kim, Donghun, Kocan, Katherine M., Koči, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sánchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Šimo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vázquez, Jesús, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, Hill, Catherine A., National Institute of Allergy and Infectious Diseases (US), National Institutes of Health (US), Department of Health and Human Services (US), Australian Research Council, Ministerio de Ciencia e Innovación (España), National Science Foundation (US), Xunta de Galicia, European Commission, Department of Agriculture (US), Texas AgriLife Research, European Research Council, Swiss National Science Foundation, Boehringer Ingelheim Fonds, Fundação para a Ciência e a Tecnologia (Portugal), Lundbeck Foundation, Gulia-Nuss, Monika, Nuss, Andrew B., Meyer, Jason M., Sonenshine, Daniel E., Roe, R. Michael, Waterhouse, Robert M., Sattelle, David B., Fuente, José de la, Ribeiro, Jose M., Megy, Karine, Thimmapuram, Jyothi, Miller, Jason R., Walenz, Brian P., Koren, Sergey, Hostetler, Jessica B., Thiagarajan, Mathangi, Joardar, Vinita S., Hannick, Linda I., Bidwell, Shelby, Hammond, Martin P., Young, Sarah, Zeng, Qiandong, Abrudan, Jenica L., Almeida, Francisca C., Ayllón, Nieves, Bhide, Ketaki, Bissinger, Brooke W., Bonzón-Kulichenko, Elena, Buckingham, Steven D., Caffrey, Daniel R., Caimano, Melissa J., Croset, Vincent, Driscoll, Timothy, Gilbert, Don, Gillespie, Joseph J., Giraldo-Calderón, Gloria I., Grabowski, Jeffrey M., Jiang, David, Khalil, Sayed M .S., Kim, Donghun, Kocan, Katherine M., Koči, Juraj, Kuhn, Richard J., Kurtti, Timothy J., Lees, Kristin, Lang, Emma G., Kennedy, Ryan C., Kwon, Hyeogsun, Perera, Rushika, Qi, Yumin, Radolf, Justin D., Sakamoto, Joyce M., Sánchez-Gracia, Alejandro, Severo, Maiara S., Silverman, Neal, Šimo, Ladislav, Tojo, Marta, Tornador, Cristian, Van Zee, Janice P., Vázquez, Jesús, Vieira, Filipe G., Villar, Margarita, Wespiser, Adam R., Yang, Yunlong, Zhu, Jiwei, Arensburger, Peter, Pietrantonio, Patricia V., Barker, Stephen C., Shao, Renfu, Zdobnov, Evgeny M., Hauser, Frank, Grimmelikhuijzen, Cornelis J. P., Park, Yoonseong, Rozas, Julio, Benton, Richard, Pedra, Joao H. F., Nelson, David R., Unger, Maria F., Tubio, Jose M. C., Tu, Zhijian, Robertson, Hugh M., Shumway, Martin, Sutton, Granger, Wortman, Jennifer R., Lawson, Daniel, Wikel, Stephen K., Nene, Vishvanath M., Fraser, Claire M., Collins, Frank H., Birren, Bruce, Nelson, Karen E., Caler, Elisabet, and Hill, Catherine A.

Abstract

Ticks transmit more pathogens to humans and animals than any other arthropod. We describe the 2.1 Gbp nuclear genome of the tick, Ixodes scapularis (Say), which vectors pathogens that cause Lyme disease, human granulocytic anaplasmosis, babesiosis and other diseases. The large genome reflects accumulation of repetitive DNA, new lineages of retro-transposons, and gene architecture patterns resembling ancient metazoans rather than pancrustaceans. Annotation of scaffolds representing ∼57% of the genome, reveals 20,486 protein-coding genes and expansions of gene families associated with tick–host interactions. We report insights from genome analyses into parasitic processes unique to ticks, including host ‘questing’, prolonged feeding, cuticle synthesis, blood meal concentration, novel methods of haemoglobin digestion, haem detoxification, vitellogenesis and prolonged off-host survival. We identify proteins associated with the agent of human granulocytic anaplasmosis, an emerging disease, and the encephalitis-causing Langat virus, and a population structure correlated to life-history traits and transmission of the Lyme disease agent.

Published
2016

14. Bacterial Species Identified on the Skin of Bottlenose Dolphins Off Southern California via Next Generation Sequencing Techniques.

Author

Russo, Corey D., Weller, David W., Nelson, Karen E., Chivers, Susan J., Torralba, Manolito, and Grimes, D. Jay

Subjects
DERMIS, CETACEA, BOTTLENOSE dolphin, MICROBIAL diversity, BIODIVERSITY
Abstract

The dermis of cetaceans is in constant contact with microbial species. Although the skin of the bottlenose dolphin provides adequate defense against most disease-causing microbes, it also provides an environment for microbial community development. Microbial community uniqueness and richness associated with bottlenose dolphin skin is a function of varying habitats and changing environmental conditions. The current study uses ribosomal DNA as a marker to identify bacteria found on the skin of coastal and offshore bottlenose dolphins off of Southern California. The unique microbial communities recovered from these dolphins suggest a greater microbial diversity on the skin of offshore ecotype bottlenose dolphins, while microbial populations associated with the coastal ecotype include species that are more closely related to each other and that suggest exposure to communities that are likely to be associated with terrestrial runoff. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Gastric acid suppression promotes alcoholic liver disease by inducing overgrowth of intestinal Enterococcus.

Author

Llorente, Cristina, Jepsen, Peter, Tatsuo Inamine, Lirui Wang, Bluemel, Sena, Wang, Hui J., Loomba, Rohit, Bajaj, Jasmohan S., Schubert, Mitchell L., Masoumeh Sikaroodi, Gillevet, Patrick M., Jun Xu, Kisseleva, Tatiana, Ho, Samuel B., DePew, Jessica, Xin Du, Sørensen, Henrik T., Vilstrup, Hendrik, Nelson, Karen E., and Brenner, David A.

Abstract

Chronic liver disease is rising in western countries and liver cirrhosis is the 12th leading cause of death worldwide. Simultaneously, use of gastric acid suppressive medications is increasing. Here, we show that proton pump inhibitors promote progression of alcoholic liver disease, non-alcoholic fatty liver disease, and non-alcoholic steatohepatitis in mice by increasing numbers of intestinal Enterococcus spp. Translocating enterococci lead to hepatic inflammation and hepatocyte death. Expansion of intestinal Enterococcus faecalis is sufficient to exacerbate ethanol-induced liver disease in mice. Proton pump inhibitor use increases the risk of developing alcoholic liver disease among alcohol-dependent patients. Reduction of gastric acid secretion therefore appears to promote overgrowth of intestinal Enterococcus, which promotes liver disease, based on data from mouse models and humans. Recent increases in the use of gastric acid-suppressive medications might contribute to the increasing incidence of chronic liver disease. [ABSTRACT FROM AUTHOR]

Published
2017
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16. Meta-omics uncover temporal regulation of pathways across oral microbiome genera during in vitro sugar metabolism.

Author

Edlund, Anna, Yang, Youngik, Yooseph, Shibu, Hall, Adam P, Nguyen, Don D, Dorrestein, Pieter C, Nelson, Karen E, He, Xuesong, Lux, Renate, Shi, Wenyuan, and McLean, Jeffrey S

Subjects
DENTAL caries, COMMUNICABLE diseases, PHYSIOLOGICAL effects of sugar, PH effect, BACTERIAL metabolism, HOMEOSTASIS, IN vitro studies
Abstract

Dental caries, one of the most globally widespread infectious diseases, is intimately linked to pH dynamics. In supragingival plaque, after the addition of a carbohydrate source, bacterial metabolism decreases the pH which then subsequently recovers. Molecular mechanisms supporting this important homeostasis are poorly characterized in part due to the fact that there are hundreds of active species in dental plaque. Only a few mechanisms (for example, lactate fermentation, the arginine deiminase system) have been identified and studied in detail. Here, we conducted what is to our knowledge, the first full transcriptome and metabolome analysis of a diverse oral plaque community by using a functionally and taxonomically robust in vitro model system greater than 100 species. Differential gene expression analyses from the complete transcriptome of 14 key community members revealed highly varied regulation of both known and previously unassociated pH-neutralizing pathways as a response to the pH drop. Unique expression and metabolite signatures from 400 detected metabolites were found for each stage along the pH curve suggesting it may be possible to define healthy and diseased states of activity. Importantly, for the maintenance of healthy plaque pH, gene transcription activity of known and previously unrecognized pH-neutralizing pathways was associated with the genera Lactobacillus, Veillonella and Streptococcus during the pH recovery phase. Our in vitro study provides a baseline for defining healthy and disease-like states and highlights the power of moving beyond single and dual species applications to capture key players and their orchestrated metabolic activities within a complex human oral microbiome model. [ABSTRACT FROM AUTHOR]

Published
2015
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18. Implications of Human Microbiome Research for the Developing World.

Author

Djikeng, Appolinaire, Nelson, Barbara Jones, and Nelson, Karen E.

Abstract

The human microbiome refers to all of the species that inhabit the human body, residing both on and in it. Over the past several years, there has been a significantly increased interest directed to the understanding of the microorganisms that reside on and in the human body. These studies of the human microbiome promise to reveal all these species and increase our understanding of the normal inhabitants, those that trigger disease and those that vary in response to disease conditions. It is anticipated that these directed research efforts, coupled with new technological advances, will ultimately allow one to gain a greater understanding of the relationships of these species with their human hosts. The various chapters in this book present a range of aspects of human microbiome research, explain the scientific and technological rationale, and highlight the significant potential that the results from these studies hold. In this chapter, we begin to address the potential and long-term implications of the knowledge gained from human microbiome research (which currently is centered in the developed world) for the developing world, which has often lagged behind in the benefits of these new technologies and their implications to new research areas. [ABSTRACT FROM AUTHOR]

Published
2011
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19. Habitat degradation impacts black howler monkey (Alouatta pigra) gastrointestinal microbiomes.

Author

Amato, Katherine R, Yeoman, Carl J, Kent, Angela, Righini, Nicoletta, Carbonero, Franck, Estrada, Alejandro, Rex Gaskins, H, Stumpf, Rebecca M, Yildirim, Suleyman, Torralba, Manolito, Gillis, Marcus, Wilson, Brenda A, Nelson, Karen E, White, Bryan A, and Leigh, Steven R

Subjects
BLACK howler monkey, BIODEGRADATION, HABITATS, GUT microbiome, MICROBIAL diversity, BUTYRATES
Abstract

The gastrointestinal (GI) microbiome contributes significantly to host nutrition and health. However, relationships involving GI microbes, their hosts and host macrohabitats remain to be established. Here, we define clear patterns of variation in the GI microbiomes of six groups of Mexican black howler monkeys (Alouatta pigra) occupying a gradation of habitats including a continuous evergreen rainforest, an evergreen rainforest fragment, a continuous semi-deciduous forest and captivity. High throughput microbial 16S ribosomal RNA gene sequencing indicated that diversity, richness and composition of howler GI microbiomes varied with host habitat in relation to diet. Howlers occupying suboptimal habitats consumed less diverse diets and correspondingly had less diverse gut microbiomes. Quantitative real-time PCR also revealed a reduction in the number of genes related to butyrate production and hydrogen metabolism in the microbiomes of howlers occupying suboptimal habitats, which may impact host health. [ABSTRACT FROM AUTHOR]

Published
2013
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20. A framework for human microbiome research.

Author

Methé, Barbara A., Nelson, Karen E., Pop, Mihai, Creasy, Heather H., Giglio, Michelle G., Huttenhower, Curtis, Gevers, Dirk, Petrosino, Joseph F., Abubucker, Sahar, Badger, Jonathan H., Chinwalla, Asif T., Earl, Ashlee M., FitzGerald, Michael G., Fulton, Robert S., Hallsworth-Pepin, Kymberlie, Lobos, Elizabeth A., Madupu, Ramana, Magrini, Vincent, Martin, John C., and Mitreva, Makedonka

Subjects
*MICROBIAL genetics, *METAGENOMICS, *HUMAN body, *RIBOSOMAL RNA, *HEALTH, *DISEASES
Abstract

A variety of microbial communities and their genes (the microbiome) exist throughout the human body, with fundamental roles in human health and disease. The National Institutes of Health (NIH)-funded Human Microbiome Project Consortium has established a population-scale framework to develop metagenomic protocols, resulting in a broad range of quality-controlled resources and data including standardized methods for creating, processing and interpreting distinct types of high-throughput metagenomic data available to the scientific community. Here we present resources from a population of 242 healthy adults sampled at 15 or 18 body sites up to three times, which have generated 5,177 microbial taxonomic profiles from 16S ribosomal RNA genes and over 3.5 terabases of metagenomic sequence so far. In parallel, approximately 800 reference strains isolated from the human body have been sequenced. Collectively, these data represent the largest resource describing the abundance and variety of the human microbiome, while providing a framework for current and future studies. [ABSTRACT FROM AUTHOR]

Published
2012
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21. Phylogenetic and gene-centric metagenomics of the canine intestinal microbiome reveals similarities with humans and mice.

Author

Swanson, Kelly S, Dowd, Scot E, Suchodolski, Jan S, Middelbos, Ingmar S, Vester, Brittany M, Barry, Kathleen A, Nelson, Karen E, Torralba, Manolito, Henrissat, Bernard, Coutinho, Pedro M, Cann, Isaac KO, White, Bryan A, and Fahey, George C

Subjects
PHYLOGENY, GUT microbiome, LABORATORY dogs, MICE, DNA, MICROBIAL virulence, PROTEIN metabolism
Abstract

This study is the first to use a metagenomics approach to characterize the phylogeny and functional capacity of the canine gastrointestinal microbiome. Six healthy adult dogs were used in a crossover design and fed a low-fiber control diet (K9C) or one containing 7.5% beet pulp (K9BP). Pooled fecal DNA samples from each treatment were subjected to 454 pyrosequencing, generating 503 280 (K9C) and 505 061 (K9BP) sequences. Dominant bacterial phyla included the Bacteroidetes/Chlorobi group and Firmicutes, both of which comprised ∼35% of all sequences, followed by Proteobacteria (13-15%) and Fusobacteria (7-8%). K9C had a greater percentage of Bacteroidetes, Fusobacteria and Proteobacteria, whereas K9BP had greater proportions of the Bacteroidetes/Chlorobi group and Firmicutes. Archaea were not altered by diet and represented ∼1% of all sequences. All archaea were members of Crenarchaeota and Euryarchaeota, with methanogens being the most abundant and diverse. Three fungi phylotypes were present in K9C, but none in K9BP. Less than 0.4% of sequences were of viral origin, with >99% of them associated with bacteriophages. Primary functional categories were not significantly affected by diet and were associated with carbohydrates; protein metabolism; DNA metabolism; cofactors, vitamins, prosthetic groups and pigments; amino acids and derivatives; cell wall and capsule; and virulence. Hierarchical clustering of several gastrointestinal metagenomes demonstrated phylogenetic and metabolic similarity between dogs, humans and mice. More research is required to provide deeper coverage of the canine microbiome, evaluate effects of age, genetics or environment on its composition and activity, and identify its role in gastrointestinal disease. [ABSTRACT FROM AUTHOR]

Published
2011
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22. Comparative Genome Analysis of Prevotella ruminicola and Prevotella bryantii: Insights into Their Environmental Niche.

Author

Purushe, Janaki, Fouts, Derrick E., Morrison, Mark, White, Bryan A., Mackie, Roderick I., Coutinho, Pedro M., Henrissat, Bernard, and Nelson, Karen E.

Subjects
BACTERIA, GENOMES, GLYCOSIDES, POLYSACCHARIDES, ENZYMES, GENETICS
Abstract

The Prevotellas comprise a diverse group of bacteria that has received surprisingly limited attention at the whole genome-sequencing level. In this communication, we present the comparative analysis of the genomes of Prevotella ruminicola 23 (GenBank: CP002006) and Prevotella bryantii B4 (GenBank: ADWO00000000), two gastrointestinal isolates. Both P. ruminicola and P. bryantii have acquired an extensive repertoire of glycoside hydrolases that are targeted towards non-cellulosic polysaccharides, especially GH43 bifunctional enzymes. Our analysis demonstrates the diversity of this genus. The results from these analyses highlight their role in the gastrointestinal tract, and provide a template for additional work on genetic characterization of these species. [ABSTRACT FROM AUTHOR]

Published
2010
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23. Bacterial diversity in the oral cavity of 10 healthy individuals.

Author

Bik, Elisabeth M., Long, Clara Davis, Armitage, Gary C., Loomer, Peter, Emerson, Joanne, Mongodin, Emmanuel F., Nelson, Karen E., Gill, Steven R., Fraser-Liggett, Claire M., and Relman, David A.

Subjects
BACTERIAL diversity, RNA, HEALTH care rationing, POPULATION biology, NUCLEIC acids
Abstract

The composition of the oral microbiota from 10 individuals with healthy oral tissues was determined using culture-independent techniques. From each individual, 26 specimens, each from different oral sites at a single point in time, were collected and pooled. An 11th pool was constructed using portions of the subgingival specimens from all 10 individuals. The 16S ribosomal RNA gene was amplified using broad-range bacterial primers, and clone libraries from the individual and subgingival pools were constructed. From a total of 11 368 high-quality, nonchimeric, near full-length sequences, 247 species-level phylotypes (using a 99% sequence identity threshold) and 9 bacterial phyla were identified. At least 15 bacterial genera were conserved among all 10 individuals, with significant interindividual differences at the species and strain level. Comparisons of these oral bacterial sequences with near full-length sequences found previously in the large intestines and feces of other healthy individuals suggest that the mouth and intestinal tract harbor distinct sets of bacteria. Co-occurrence analysis showed significant segregation of taxa when community membership was examined at the level of genus, but not at the level of species, suggesting that ecologically significant, competitive interactions are more apparent at a broader taxonomic level than species. This study is one of the more comprehensive, high-resolution analyses of bacterial diversity within the healthy human mouth to date, and highlights the value of tools from macroecology for enhancing our understanding of bacterial ecology in human health. [ABSTRACT FROM AUTHOR]

Published
2010
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24. Antimicrobial Resistance of the Coral Pathogen Vibrio coralliilyticus and Caribbean Sister Phylotypes Isolated from a Diseased Octocoral.

Author

Vizcaino, Maria I., Johnson, Wesley R., Kimes, Nikole E., Williams, Katherine, Torralba, Manolito, Nelson, Karen E., Smith, Garriet W., Weil, Ernesto, Moeller, Peter D. R., and Morris, Pamela J.

Subjects
VIBRIO, NUCLEOTIDE sequence, OCTOCORALLIA, MARINE organisms, CORALS
Abstract

Vibrio coralliilyticus is a global marine pathogen that has been found to cause disease in several marine organisms, including corals. This study is the first report of the isolation of V. coralliilyticus from a diseased Caribbean octocoral, Pseudopterogorgia americana. Five sister phylotypes were positively identified using 16S rRNA gene sequencing, recA probes specific for V. coralliilyticus, and rep-PCR fingerprinting. The antimicrobial resistance was compared between pathogenic strains of V. coralliilyticus and the Caribbean strains. First, the antimicrobial resistance of V. coralliilyticus-type strain ATCC BAA-450 was determined using an agar-overlay antimicrobial bioassay at 24°C and 27°C, temperatures which are relevant to its known temperature-dependent virulence. From 108 distinct bacteria isolated from P. americana, 12 inhibited the V. coralliilyticus-type strain at 24°C and five at 27°C. Next, the phenotypic comparison of two Caribbean phylotypes and three V. coralliilyticus reference strains against a subset of 30 bacteria demonstrated a similar resistance trend. At both temperatures, the reference strains were inhibited by three bacteria isolates, while the Caribbean strains were inhibited by four to nine bacteria. Additionally, V. coralliilyticus-type strain ATCC BAA-450 and one of the Caribbean strains were inhibited by a higher number of bacteria at 24°C compared with 27°C. Together, these results highlight that V. coralliilyticus strains have antimicrobial resistance to the majority of coral-associated bacteria tested, which may be temperature-dependent in some strains. Furthermore, all V. coralliilyticus strains tested showed multi-drug resistance to a range of 11–16 (out of 26) commercial antibiotics. This study establishes V. coralliilyticus in association with a Caribbean octocoral and demonstrates its resistance to the antimicrobial activity of coral-associated bacteria and to commercial antibiotics. [ABSTRACT FROM AUTHOR]

Published
2010
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25. Microbial Fuel Cells and Microbial Ecology: Applications in Ruminant Health and Production Research.

Author

Bretschger, Orianna, Osterstock, Jason B., Pinchak, William E., Ishii, Shun’ichi, and Nelson, Karen E.

Abstract

Microbial fuel cell (MFC) systems employ the catalytic activity of microbes to produce electricity from the oxidation of organic, and in some cases inorganic, substrates. MFC systems have been primarily explored for their use in bioremediation and bioenergy applications; however, these systems also offer a unique strategy for the cultivation of synergistic microbial communities. It has been hypothesized that the mechanism(s) of microbial electron transfer that enable electricity production in MFCs may be a cooperative strategy within mixed microbial consortia that is associated with, or is an alternative to, interspecies hydrogen (H2) transfer. Microbial fermentation processes and methanogenesis in ruminant animals are highly dependent on the consumption and production of H2 in the rumen. Given the crucial role that H2 plays in ruminant digestion, it is desirable to understand the microbial relationships that control H2 partial pressures within the rumen; MFCs may serve as unique tools for studying this complex ecological system. Further, MFC systems offer a novel approach to studying biofilms that form under different redox conditions and may be applied to achieve a greater understanding of how microbial biofilms impact animal health. Here, we present a brief summary of the efforts made towards understanding rumen microbial ecology, microbial biofilms related to animal health, and how MFCs may be further applied in ruminant research. [ABSTRACT FROM AUTHOR]

Published
2010
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26. Functional metagenomic profiling of nine biomes.

Author

Dinsdale, Elizabeth A., Edwards, Robert A., Hall, Dana, Angly, Florent, Breitbart, Mya, Brulc, Jennifer M., Furlan, Mike, Desnues, Christelle, Haynes, Matthew, Linlin Li, McDaniel, Lauren, Moran, Mary Ann, Nelson, Karen E., Nilsson, Christina, Olson, Robert, Paul, John, Brito, Beltran Rodriguez, Yijun Ruan, Swan, Brandon K., and Stevens, Rick

Subjects
BIOGEOCHEMISTRY, MICROBIAL biotechnology, GENOMICS, BIOTIC communities, BACTERIA, BIOGEOCHEMICAL cycles, GENE expression, ANTIMETABOLITES, DNA probes
Abstract

Microbial activities shape the biogeochemistry of the planet and macroorganism health. Determining the metabolic processes performed by microbes is important both for understanding and for manipulating ecosystems (for example, disruption of key processes that lead to disease, conservation of environmental services, and so on). Describing microbial function is hampered by the inability to culture most microbes and by high levels of genomic plasticity. Metagenomic approaches analyse microbial communities to determine the metabolic processes that are important for growth and survival in any given environment. Here we conduct a metagenomic comparison of almost 15 million sequences from 45 distinct microbiomes and, for the first time, 42 distinct viromes and show that there are strongly discriminatory metabolic profiles across environments. Most of the functional diversity was maintained in all of the communities, but the relative occurrence of metabolisms varied, and the differences between metagenomes predicted the biogeochemical conditions of each environment. The magnitude of the microbial metabolic capabilities encoded by the viromes was extensive, suggesting that they serve as a repository for storing and sharing genes among their microbial hosts and influence global evolutionary and metabolic processes. [ABSTRACT FROM AUTHOR]

Published
2008
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27. The genome sequence of Bacillus anthracis Ames and comparison to closely related bacteria.

Author

Read, Timothy D., Peterson, Scott N., Tourasse, Nicolas, Baillie, Les W., Paulsen, Ian T., Nelson, Karen E., Tettelin, Herve, Fouts, Derrick E., Eisen, Jonathan A., Gill, Steven R., Holtzapple, Erik K., Okstad, Ole Andreas, Helgason, Erlendur, Rilstone, Jennifer, Wu, Martin, Kolonay, James F., Beanan, Maureen J., Dodson, Robert J., and Brinkac, Lauren M.

Subjects
BACILLUS anthracis, CHROMOSOMES, GENETICS, ANTHRAX
Abstract

Bacillus anthracis is an endospore-forming bacterium that causes inhalational anthrax. Key virulence genes are found on plasmids (extra-chromosomal, circular, double-stranded DNA molecules) pXO1 (ref. 2) and pXO2 (ref. 3). To identify additional genes that might contribute to virulence, we analysed the complete sequence of the chromosome of B. anthracis Ames (about 5.23 megabases). We found several chromosomally encoded proteins that may contribute to pathogenicity-including haemolysins, phospholipases and iron acquisition functions-and identified numerous surface proteins that might be important targets for vaccines and drugs. Almost all these putative chromosomal virulence and surface proteins have homologues in Bacillus cereus, highlighting the similarity of B. anthracis to near-neighbours that are not associated with anthrax. By performing a comparative genome hybridization of 19 B. cereus and Bacillus thuringiensis strains against a B. anthracis DNA microarray, we confirmed the general similarity of chromosomal genes among this group of close relatives. However, we found that the gene sequences of pXO1 and pXO2 were more variable between strains, suggesting plasmid mobility in the group. The complete sequence of B. anthracis is a step towards a better understanding of anthrax pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2003
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28. Genome sequence of the dissimilatory metal ion–reducing bacterium Shewanella oneidensis.

Author

Heidelberg, John F., Paulsen, Ian T., Nelson, Karen E., Gaidos, Eric J., Nelson, William C., Read, Timothy D., Eisen, Jonathan A., Seshadri, Rekha, Ward, Naomi, Methe, Barbara, Clayton, Rebecca A., Meyer, Terry, Tsapin, Alexandre, Scott, James, Beanan, Maureen, Brinkac, Lauren, Daugherty, Sean, DeBoy, Robert T., Dodson, Robert J., and Durkin, A. Scott

Subjects
SHEWANELLA, NUCLEOTIDE sequence, ELECTRON transport, BIOREMEDIATION
Abstract

Shewanella oneidensis is an important model organism for bioremediation studies because of its diverse respiratory capabilities, conferred in part by multicomponent, branched electron transport systems. Here we report the sequencing of the S. oneidensis genome, which consists of a 4,969,803-base pair circular chromosome with 4,758 predicted protein-encoding open reading frames (CDS) and a 161,613-base pair plasmid with 173 CDSs. We identified the first Shewanella lambda-like phage, providing a potential tool for further genome engineering. Genome analysis revealed 39 c-type cytochromes, including 32 previously unidentified in S. oneidensis, and a novel periplasmic [Fe] hydrogenase, which are integral members of the electron transport system. This genome sequence represents a critical step in the elucidation of the pathways for reduction (and bioremediation) of pollutants such as uranium (U) and chromium (Cr), and offers a starting point for defining this organism's complex electron transport systems and metal ion-reducing capabilities. [ABSTRACT FROM AUTHOR]

Published
2002
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29. Status of genome projects for nonpathogenic bacteria and archaea.

Author

Nelson, Karen E., Paulsen, Ian T., Heidelberg, John F., and Fraser, Claire M.

Subjects
*MICROBIAL genetics, *BIOINFORMATICS
Abstract

Since the first microbial genome was sequenced in 1995, 30 others have been completed and an additional 99 are known to be in progress. Although the early emphasis of microbial genomics was on human pathogens for obvious reasons, a significant number of sequencing projects have focused on nonpathogenic organisms, beginning with the release of the complete genome sequence of the archaeon Methanococcus jannaschii in 1996. The past 18 months have seen the completion of the genomes of several unusual organisms, including Thermotoga maritima, whose genome reveals extensive potential lateral transfer with archaea; Deinococcus radiodurans, the most radiation-resistant microorganism known; and Aeropyrum pernix, the first Crenarchaeota to be completely sequenced. Although the functional characterization of genomic data is still in its initial stages, it is likely that microbial genomics will have a significant impact on environmental, food, and industrial biotechnology as well as on genomic medicine. [ABSTRACT FROM AUTHOR]

Published
2000
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30. DNA sequence of both chromosomes of the cholera pathogen Vibrio cholerae.

Author

Heidelberg, John F., Eisen, Jonathan A., Nelson, William C., Clayton, Rebecca A., Gwinn, Michelle L., Dodson, Robert J., Haft, Daniel H., Hickey, Erin K., Peterson, Jeremy D., Umayam, Lowell, Gill, Steven R., Nelson, Karen E., Read, Timothy D., Tettelin, Herve, Richardson, Delwood, Ermolaeva, Marie D., Vamathevan, Jessica, Bass, Steven, Haiying Qin, and Dragoi, Ioana

Subjects
CHOLERA, GENOMES, EPIDEMICS, ETIOLOGY of diseases, GENETICS
Abstract

Presents the results of a report which reveals the DNA sequence of the cholera pathogen Vibrio cholerae. Background on the cholera epidemic in Asia, its spread throughout other continents, and its threat to developing countries; Genome sequence and details regarding the structure and function of the pathogen; What the sequence may provide to science and the potential treatment of other diseases.

Published
2000
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31. Correction to: Oral Microbial Species and Virulence Factors Associated with Oral Squamous Cell Carcinoma.

Author

Torralba, Manolito G., Aleti, Gajender, Li, Weizhong, Moncera, Kelvin Jens, Lin, Yi-Han, Yu, Yanbao, Masternak, Michal M., Golusinski, Wojciech, Golusinski, Pawel, Lamperska, Katarzyna, Edlund, Anna, Freire, Marcelo, and Nelson, Karen E.

Subjects
MICROBIAL virulence, SQUAMOUS cell carcinoma
Abstract

The original article contained mistakes in the authors' affiliations. [ABSTRACT FROM AUTHOR]

Published
2021
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32. Evidence for lateral gene transfer between Archaea and Bacteria from genome sequence of Thermotoga maritima.

Author

Nelson, Karen E., Clayton, Rebecca A., Gill, Steven R., Gwinn, Michelle L., Dodson, Robert J., Haft, Daniel H., Hickey, Erin K., Peterson, Jeremy D., Nelson, William C., Ketchum, Karen A., McDonald, Lisa, Utterback, Teresa R., Malek, Joel A., Linher, Katja D., Garrett, Mina M., Stewart, Ashley M., Cotton, Matthew D., Pratt, Matthew S., Phillips, Cheryl A., and Richardson, Delwood

Subjects
*GENOMES, *NUCLEOTIDE sequence, *EUBACTERIALES, *ARCHAEBACTERIA, *ANALYTICAL chemistry, *GENETICS
Abstract

Presents research which studied the genome sequence of Thermotoga maritima. Coding regions in the genome; Results of genome analysis; Comparison of Eubacteria genes and archaeal genes; Gene clusters and their size; Implications of the conservation of gene order between T. maritima and Archaea; Presence of lateral gene transfer between thermophilic Eubacteria and Archaea.

Published
1999
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33. Author Correction: Microbiome disturbance and resilience dynamics of the upper respiratory tract during influenza A virus infection.

Author

Kaul, Drishti, Rathnasinghe, Raveen, Ferres, Marcela, Tan, Gene S., Barrera, Aldo, Pickett, Brett E., Methe, Barbara A., Das, Suman R., Budnik, Isolda, Halpin, Rebecca A., Wentworth, David, Schmolke, Mirco, Mena, Ignacio, Albrecht, Randy A., Singh, Indresh, Nelson, Karen E., García-Sastre, Adolfo, Dupont, Chris L., and Medina, Rafael A.

Subjects
VIRUS diseases, INFLUENZA A virus, ZIKA Virus Epidemic, 2015-2016
Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper. [ABSTRACT FROM AUTHOR]

Published
2020
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34. Interplay between the human gut microbiome and host metabolism.

Author

Visconti, Alessia, Le Roy, Caroline I., Rosa, Fabio, Rossi, Niccolò, Martin, Tiphaine C., Mohney, Robert P., Li, Weizhong, de Rinaldis, Emanuele, Bell, Jordana T., Venter, J. Craig, Nelson, Karen E., Spector, Tim D., and Falchi, Mario

Subjects
GUT microbiome, HUMAN microbiota, SHOTGUN sequencing, METABOLISM, METABOLITES, BIOMES
Abstract

The human gut is inhabited by a complex and metabolically active microbial ecosystem. While many studies focused on the effect of individual microbial taxa on human health, their overall metabolic potential has been under-explored. Using whole-metagenome shotgun sequencing data in 1,004 twins, we first observed that unrelated subjects share, on average, almost double the number of metabolic pathways (82%) than species (43%). Then, using 673 blood and 713 faecal metabolites, we found metabolic pathways to be associated with 34% of blood and 95% of faecal metabolites, with over 18,000 significant associations, while species showed less than 3,000 associations. Finally, we estimated that the microbiome was involved in a dialogue between 71% of faecal, and 15% of blood, metabolites. This study underlines the importance of studying the microbial metabolic potential rather than focusing purely on taxonomy to find therapeutic and diagnostic targets, and provides a unique resource describing the interplay between the microbiome and the systemic and faecal metabolic environments. Here, the authors study the interplay between the microbiome and faecal and blood metabolome, and how the microbiome interacts in the dialogue between these metabolic compartments, identifying a key role for microbial functions and underscoring their relevance for microbiome therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Microbial Environmental Genomics.

Author

Nelson, Karen E., Methé, Barbara A., and Kowalchuk, George A.

Subjects
*MICROBIAL ecology, *ECOLOGY, *MICROBIOLOGY, *MICROBIAL genomics, *GENOMICS, *CONFERENCES & conventions
Abstract

The article offers information on MicroEnGen, an international forum for microbial ecogenomics. MicroEnGen was initiated to address the research priorities in the application of the evolving genomics toolbox to meet research demands in the field of environmental microbiology. MicroEnGen conducts several workshops which aim not only to present emerging science, but also to discuss and synthesize research priorities and directions for the future.

Published
2007
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