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4. Characterization of integrated hepatitis B virus DNA harboring pre‐S mutations in hepatocellular carcinoma patients with ground glass hepatocytes

Author

Su, Yih‐Ping, primary, Lin, Selena Y., additional, Su, Ih‐Jen, additional, Kao, Yu‐Lan, additional, Shen, Shih‐Chun, additional, Earl, Joshua P., additional, Ehrlich, Garth D., additional, Chen, Cheng‐Yi, additional, Huang, Wenya, additional, Su, Ying‐Hsiu, additional, and Tsai, Hung‐Wen, additional

Published
2024
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6. Author Correction: Interaction between the microbiome and TP53 in human lung cancer

Author

Greathouse, K. Leigh, White, James R., Vargas, Ashely J., Bliskovsky, Valery V., Beck, Jessica A., von Muhlinen, Natalia, Polley, Eric C., Bowman, Elise D., Khan, Mohammed A., Robles, Ana I., Cooks, Tomer, Ryan, Bríd M., Padgett, Noah, Dzutsev, Amiran H., Trinchieri, Giorgio, Pineda, Marbin A., Bilke, Sven, Meltzer, Paul S., Hokenstad, Alexis N., Stickrod, Tricia M., Walther-Antonio, Marina R., Earl, Joshua P., Mell, Joshua C., Krol, Jaroslaw E., Balashov, Sergey V., Bhat, Archana S., Ehrlich, Garth D., Valm, Alex, Deming, Clayton, Conlan, Sean, Oh, Julia, Segre, Julie A., and Harris, Curtis C.

Published
2020
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9. Interaction between the microbiome and TP53 in human lung cancer

Author

Greathouse, K. Leigh, White, James R., Vargas, Ashely J., Bliskovsky, Valery V., Beck, Jessica A., von Muhlinen, Natalia, Polley, Eric C., Bowman, Elise D., Khan, Mohammed A., Robles, Ana I., Cooks, Tomer, Ryan, Bríd M., Padgett, Noah, Dzutsev, Amiran H., Trinchieri, Giorgio, Pineda, Marbin A., Bilke, Sven, Meltzer, Paul S., Hokenstad, Alexis N., Stickrod, Tricia M., Walther-Antonio, Marina R., Earl, Joshua P., Mell, Joshua C., Krol, Jaroslaw E., Balashov, Sergey V., Bhat, Archana S., Ehrlich, Garth D., Valm, Alex, Deming, Clayton, Conlan, Sean, Oh, Julia, Segre, Julie A., and Harris, Curtis C.

Published
2018
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12. Species-Level Profiling of Ixodes pacificus Bacterial Microbiomes Reveals High Variability Across Short Spatial Scales at Different Taxonomic Resolutions

Author

Socarras, Kayla M., primary, Earl, Joshua P., additional, Krol, Jaroslaw E., additional, Bhat, Archana, additional, Pabilonia, Max, additional, Harrison, Meghan H., additional, Lang, Steven P., additional, Sen, Bhaswati, additional, Ahmed, Azad, additional, Hester, Michael, additional, Mell, Joshua Chang, additional, Vandegrift, Kurt, additional, and Ehrlich, Garth D., additional

Published
2021
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14. HIV- Bidirectional Encoder Representations From Transformers: A Set of Pretrained Transformers for Accelerating HIV Deep Learning Tasks.

Author

Will Dampier, Link, Robert W., Earl, Joshua P., Collins, Mackenzie, De Souza, Diehl R., Koser, Kelvin, Nonnemacher, Michael R., and Wigdahl, Brian

Subjects
LANGUAGE models, MACHINE learning, TRANSFORMER models, DEEP learning, NATURAL language processing
Abstract

The human immunodeficiency virus type 1 (HIV-1) is a global health threat that is characterized by extensive genetic diversity both within and between patients, rapid mutation to evade immune controls and antiretroviral therapies, and latent cellular and tissue reservoirs that stymie cure efforts. Viral genomic sequencing has proven effective at surveilling these phenotypes. However, rapid, accurate, and explainable prediction techniques lag our sequencing ability. Modern natural language processing libraries, like the Hugging Face transformers library, have both advanced the technical field and brought much-needed standardization of prediction tasks. Herein, the application of this toolset to an array of classification tasks useful to HIV-1 biology was explored: protease inhibitor resistance, coreceptor utilization, and body-site identification. HIVBidirectional Encoder Representations from Transformers (BERT), a protein-based transformer model fine-tuned on HIV-1 genomic sequences, was able to achieve accuracies of 88%, 92%, and 89% on the respective tasks, making it competitive with leading models capable of only one of these tasks. This model was also evaluated using a data augmentation strategy when mutations of known function were introduced. The HIVBERT model produced results that agreed in directionality 10- to 1000-fold better than traditional machine learning models, indicating an improved ability to generalize biological knowledge to unseen sequences. The HIV-BERT model, trained task-specific models, and the datasets used to construct them have been released to the Hugging Face repository to accelerate research in this field. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Panel 3: Genomics, precision medicine and targeted therapies

Author

Santos-Cortez, Regie Lyn P., primary, Bhutta, Mahmood F., additional, Earl, Joshua P., additional, Hafrén, Lena, additional, Jennings, Michael, additional, Mell, Joshua C., additional, Pichichero, Michael E., additional, Ryan, Allen F., additional, Tateossian, Hilda, additional, and Ehrlich, Garth D., additional

Published
2020
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16. The bacterial microbiota of Hunner lesion interstitial cystitis/bladder pain syndrome.

Author

Nickel, J. Curtis, Ehrlich, Garth D., Krol, Jaroslaw E., Ahmed, Azad, Sen, Bhaswati, Bhat, Archana, Mell, Joshua C., Doiron, R. Christopher, Kelly, Kerri‐Lynn, and Earl, Joshua P.

Subjects
INTERSTITIAL cystitis, HUMAN microbiota, SPECIES diversity, URINARY tract infections, MULTIPLE comparisons (Statistics), WOMEN patients
Abstract

Objective: To undertake the first comprehensive evaluation of the urinary microbiota associated with Hunner lesion (HL) interstitial cystitis/bladder pain syndrome (IC/BPS). Despite no previous identification of a distinct IC/BPS microbial urotype, HL IC/BPS, an inflammatory subtype of IC/BPS, was hypothesized most likely to be associated with a specific bacterial species or microbial pattern. Participants and Methods: The bacterial microbiota of midstream urine specimens from HL IC/BPS and age‐ and gender‐matched IC/BPS patients without HL (non‐HL IC/BPS) were examined using the pan‐bacterial domain clinical‐level molecular diagnostic Pacific Biosciences full‐length 16S gene sequencing protocol, informatics pipeline and database. We characterized the differential presence, abundances, and diversity of species, as well as gender‐specific differences between and among HL and non‐HL IC/BPS patients. Results: A total of 59 patients with IC/BPS were enrolled (29 HL, 30 non‐HL; 43 women, 16 men) from a single centre and the microbiota in midstream urine specimens was available for comparison. The species abundance differentiation between the HL and non‐HL groups (12 species) was not significantly different after Bonferroni adjustments for multiple comparisons. Similarly, the nine differentiating species noted between female HL and non‐HL patients were not significantly different after similar statistical correction. However, four species abundances (out of the 10 species differences identified prior to correction) remained significantly different between male HL and non‐HL subjects: Negativicoccus succinivorans, Porphyromonas somerae, Mobiluncus curtisii and Corynebacteriumrenale. Shannon diversity metrics showed significantly higher diversity among HL male patients than HL female patients (P = 0.045), but no significant diversity differences between HL and non‐HL patients overall. Conclusions: We were not able to identify a unique pathogenic urinary microbiota that differentiates all HL from all non‐HL IC/BPS. It is likely that the male‐specific differences resulted from colonization/contamination remote from the bladder. We were not able to show that bacteria play an important role in patients with HL IC/BPS. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Microbial Characteristics of Chronic Respiratory Disease

Author

Earl, Joshua P.

Subjects
FOS: Computer and information sciences, Bioinformatics, Molecular biology, Phylogeny--Molecular aspects, Respiratory organs--Diseases, Moraxella, Medical sciences
Abstract

Respiratory illness is the third leading medical expense category in the United States. Chronic respiratory conditions were the third leading cause of death in the United States in 2011; there is therefore an urgent need for accurate clinical diagnostics, and deeper understanding of organisms associated with these diseases. This study examines in detail new DNA sequence technology that can be used to identify to the species level essentially all bacterial organisms present in clinical samples. A new bioinformatic pipeline designed specifically to leverage this new long read DNA sequence is introduced: MCSMRT. This new analytical method is validated with both simple, and complex mock communities illustrating this pipeline's sensitivity and specificity capabilities compared to previous efforts using short read technology. The methods are applied to 12 patient's sino-nasal surgery samples, showing the clinical relevance of this diagnostic. In addition, to further illustrate the power of genomic DNA sequence methods, Moraxella catarrhalis, the third leading cause of the chronic respiratory illness otitis media (OM) is characterized at a detailed genomic level. This new analysis examines the supragenome in unprecedented detail, including analysis of community composition, phylogenetic relatedness, virulence factor distribution, horizontal gene transfer, and antibiotic capabilities of 31 clinical isolates.

Published
2018
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18. Species-level bacterial community profiling of the healthy sinonasal microbiome using Pacific Biosciences sequencing of full-length 16S rRNA genes

Author

Earl, Joshua P., primary, Adappa, Nithin D., additional, Krol, Jaroslaw, additional, Bhat, Archana S., additional, Balashov, Sergey, additional, Ehrlich, Rachel L., additional, Palmer, James N., additional, Workman, Alan D., additional, Blasetti, Mariel, additional, Sen, Bhaswati, additional, Hammond, Jocelyn, additional, Cohen, Noam A., additional, Ehrlich, Garth D., additional, and Mell, Joshua Chang, additional

Published
2018
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19. Microbiome-TP53 Gene Interaction in Human Lung Cancer

Author

Greathouse, K. Leigh, primary, White, James R., additional, Vargas, Ashely J., additional, Bliskovsky, Valery V., additional, Beck, Jessica A., additional, Muhlinen, Natalia von, additional, Polley, Eric C., additional, Bowman, Elise D., additional, Khan, Mohammed A., additional, Robles, Ana I., additional, Cooks, Tomer, additional, Ryan, Bríd M., additional, Dzutsev, Amiran H., additional, Trinchieri, Giorgio, additional, Pineda, Marbin A., additional, Bilke, Sven, additional, Meltzer, Paul S., additional, Hokenstad, Alexis N., additional, Stickrod, Tricia M., additional, Walther-Antonio, Marina R., additional, Earl, Joshua P., additional, Mell, Joshua C., additional, Krol, Jaroslaw E., additional, Balashov, Sergey V., additional, Bhat, Archana S., additional, Ehrlich, Garth D., additional, Valm, Alex, additional, Deming, Clayton, additional, Conlan, Sean, additional, Oh, Julia, additional, Segre, Julie A., additional, and Harris, Curtis C., additional

Published
2018
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20. Comparing culture and molecular methods for the identification of microorganisms involved in necrotizing soft tissue infections

Author

Rudkjøbing, Vibeke Børsholt, Thomsen, Trine Rolighed, Xu, Yijuan, Melton-Kreft, Rachael, Ahmed, Azad, Eickhardt-Dalbøge, Steffen Robert, Bjarnsholt, Thomas, Poulsen, Steen Seier, Nielsen, Per Halkjær, Earl, Joshua P, Ehrlich, Garth D, Moser, Claus, Rudkjøbing, Vibeke Børsholt, Thomsen, Trine Rolighed, Xu, Yijuan, Melton-Kreft, Rachael, Ahmed, Azad, Eickhardt-Dalbøge, Steffen Robert, Bjarnsholt, Thomas, Poulsen, Steen Seier, Nielsen, Per Halkjær, Earl, Joshua P, Ehrlich, Garth D, and Moser, Claus

Abstract

BACKGROUND: Necrotizing soft tissue infections (NSTIs) are a group of infections affecting all soft tissues. NSTI involves necrosis of the afflicted tissue and is potentially life threatening due to major and rapid destruction of tissue, which often leads to septic shock and organ failure. The gold standard for identification of pathogens is culture; however molecular methods for identification of microorganisms may provide a more rapid result and may be able to identify additional microorganisms that are not detected by culture.METHODS: In this study, tissue samples (n = 20) obtained after debridement of 10 patients with NSTI were analyzed by standard culture, fluorescence in situ hybridization (FISH) and multiple molecular methods. The molecular methods included analysis of microbial diversity by 1) direct 16S and D2LSU rRNA gene Microseq 2) construction of near full-length 16S rRNA gene clone libraries with subsequent Sanger sequencing for most samples, 3) the Ibis T5000 biosensor and 4) 454-based pyrosequencing. Furthermore, quantitative PCR (qPCR) was used to verify and determine the relative abundance of Streptococcus pyogenes in samples.RESULTS: For 70 % of the surgical samples it was possible to identify microorganisms by culture. Some samples did not result in growth (presumably due to administration of antimicrobial therapy prior to sampling). The molecular methods identified microorganisms in 90 % of the samples, and frequently detected additional microorganisms when compared to culture. Although the molecular methods generally gave concordant results, our results indicate that Microseq may misidentify or overlook microorganisms that can be detected by other molecular methods. Half of the patients were found to be infected with S. pyogenes, but several atypical findings were also made including infection by a) Acinetobacter baumannii, b) Streptococcus pneumoniae, and c) fungi, mycoplasma and Fusobacterium necrophorum.CONCLUSION: Th

Published
2016

21. Comparing culture and molecular methods for the identification of microorganisms involved in necrotizing soft tissue infections

Author

Rudkjøbing, Vibeke Børsholt, primary, Thomsen, Trine Rolighed, additional, Xu, Yijuan, additional, Melton-Kreft, Rachael, additional, Ahmed, Azad, additional, Eickhardt, Steffen, additional, Bjarnsholt, Thomas, additional, Poulsen, Steen Seier, additional, Nielsen, Per Halkjær, additional, Earl, Joshua P., additional, Ehrlich, Garth D., additional, and Moser, Claus, additional

Published
2016
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22. Comparative Genomic Analyses of theMoraxella catarrhalisSerosensitive and Seroresistant Lineages Demonstrate Their Independent Evolution

Author

Earl, Joshua P., primary, de Vries, Stefan P.W., additional, Ahmed, Azad, additional, Powell, Evan, additional, Schultz, Matthew P., additional, Hermans, Peter W.M., additional, Hill, Darryl J., additional, Zhou, Zhemin, additional, Constantinidou, Crystala I., additional, Hu, Fen Z., additional, Bootsma, Hester J., additional, and Ehrlich, Garth D., additional

Published
2016
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24. The distributed genome hypothesis as a rubric for understanding evolution in situ during chronic bacterial biofilm infectious processes

Author

Ehrlich, Garth D., Ahmed, Azad, Earl, Joshua P., Hiller, Natalia, J. William Costerton, Stoodley, Paul, J. Christopher Post, DeMeo, Patrick, and Hu, Fen Z.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified
Abstract

Most chronic infectious disease processes associated with bacteria are characterized by the formation of a biofilm that provides for bacterial attachment to the host tissue or the implanted medical device. The biofilm protects the bacteria from the host's adaptive immune response as well as predation by phagocytic cells. However, the most insidious aspect of biofilm biology from the host's point of view is that the biofilm provides an ideal setting for bacterial horizontal gene transfer (HGT). HGT provides for large-scale genome content changes in situ during the chronic infectious process. Obviously, for HGT processes to result in the reassortment of alleles and genes among bacterial strains, the infection must be polyclonal (polymicrobial) in nature. In this review, we marshal the evidence that all of the factors are present in biofilm infections to support HGT that results in the ongoing production of novel strains with unique combinations of genic characteristics and that the continual production of large numbers of novel, but related bacterial strains leads to persistence. This concept of an infecting population of bacteria undergoing mutagenesis to produce a 'cloud' of similar strains to confuse and overwhelm the host's immune system parallels genetic diversity strategies used by viral and parasitic pathogens.

Published
2010
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26. Design and validation of a supragenome array for determination of the genomic content of Haemophilus influenzae isolates

Author

Eutsey, Rory A, primary, Hiller, N Luisa, additional, Earl, Joshua P, additional, Janto, Benjamin A, additional, Dahlgren, Margaret E, additional, Ahmed, Azad, additional, Powell, Evan, additional, Schultz, Matthew P, additional, Gilsdorf, Janet R, additional, Zhang, Lixin, additional, Smith, Arnold, additional, Murphy, Timothy F, additional, Sethi, Sanjay, additional, Shen, Kai, additional, Post, J Christopher, additional, Hu, Fen Z, additional, and Ehrlich, Garth D, additional

Published
2013
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27. Comparative Genomic Analyses of the Moraxella catarrhalis Serosensitive and Seroresistant Lineages Demonstrate Their Independent Evolution.

Author

Earl, Joshua P., de Vries, Stefan P.W., Ahmed, Azad, Powell, Evan, Schultz, Matthew P., Hermans, Peter W.M., Hill, Darryl J., Zhou, Zhemin, Constantinidou, Crystala I., Hu, Fen Z., Bootsma, Hester J., and Ehrlich, Garth D.

Subjects
*MORAXELLA catarrhalis, *BACTERIAL evolution, *HORIZONTAL gene transfer, *BETA lactamases, *NUCLEOTIDE sequence
Abstract

The bacterial species Moraxella catarrhalis has been hypothesized as being composed of two distinct lineages (referred to as the seroresistant [SR] and serosensitive [SS]) with separate evolutionary histories based on several molecular typing methods, whereas 16S ribotyping has suggested an additional split within the SS lineage. Previously, we characterized whole-genome sequences of 12 SRlineage isolates, which revealed a relatively small supragenome when compared with other opportunistic nasopharyngeal pathogens, suggestive of a relatively short evolutionary history. Here, we performed whole-genome sequencing on 18 strains from both ribotypes of the SS lineage, an additional SR strain, as well as four previously identified highly divergent strains based on multilocus sequence typing analyses. All 35 strains were subjected to a battery of comparative genomic analyses which clearly show that there are three lineages-the SR, SS, and the divergent. The SR and SS lineages are closely related, but distinct from each other based on three different methods of comparison: Allelic differences observed among core genes; possession of lineage-specific sets of core and distributed genes; and by an alignment of concatenated core sequences irrespective of gene annotation. All these methods show that the SS lineage has much longer interstrain branches than the SR lineage indicating that this lineage has likely been evolving either longer or faster than the SR lineage. There is evidence of extensive horizontal gene transfer (HGT) within both of these lineages, and to a lesser degree between them. In particular, we identified very high rates of HGT between these two lineages for β-lactamase genes. The four divergent strains are suigeneris, being much more distantly related to both the SR and SS groups than these other two groups are to each other. Based on average nucleotide identities, gene content, GC content, and genome size, this group could be considered as a separate taxonomic group. The SR and SS lineages, although distinct, clearly form a single species based on multiple criteria including a large common core genome, average nucleotide identity values, GC content, and genome size. Although neither of these lineages arose from within the other based on phylogenetic analyses, the question of how and when these lineages split and then subsequently reunited in the human nasopharynx is explored. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Differences in Genotype and Virulence among Four Multidrug-Resistant Streptococcus pneumoniae Isolates Belonging to the PMEN1 Clone

Author

Hiller, N. Luisa, primary, Eutsey, Rory A., additional, Powell, Evan, additional, Earl, Joshua P., additional, Janto, Benjamin, additional, Martin, Darren P., additional, Dawid, Suzanne, additional, Ahmed, Azad, additional, Longwell, Mark J., additional, Dahlgren, Margaret E., additional, Ezzo, Suzanne, additional, Tettelin, Herve, additional, Daugherty, Sean C., additional, Mitchell, Timothy J., additional, Hillman, Todd A., additional, Buchinsky, Farrel J., additional, Tomasz, Alexander, additional, de Lencastre, Herminia, additional, Sá-Leão, Raquel, additional, Post, J. Christopher, additional, Hu, Fen Z., additional, and Ehrlich, Garth D., additional

Published
2011
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30. Streptococcus pneumoniaeSupragenome Hybridization Arrays for Profiling of Genetic Content and Gene Expression

Author

Kadam, Anagha, Janto, Benjamin, Eutsey, Rory, Earl, Joshua P., Powell, Evan, Dahlgren, Margaret E., Hu, Fen Z., Ehrlich, Garth D., and Hiller, N. Luisa

Abstract

There is extensive genomic diversity among Streptococcus pneumoniaeisolates. Approximately half of the comprehensive set of genes in the species (the supragenome or pangenome) is present in all the isolates (core set), and the remaining is unevenly distributed among strains (distributed set). The Streptococcus pneumoniaeSupragenome Hybridization (SpSGH) array provides coverage for an extensive set of genes and polymorphisms encountered within this species, capturing this genomic diversity. Further, the capture is quantitative. In this manner, the SpSGH array allows for both genomic and transcriptomic analyses of diverse S. pneumoniaeisolates on a single platform. In this unit, we present the SpSGH array, and describe in detail its design and implementation for both genomic and transcriptomic analyses. The methodology can be applied to construction and modification of SpSGH array platforms, as well to other bacterial species as long as multiple whole‐genome sequences are available that collectively capture the vast majority of the species supragenome.

Published
2015
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31. Perspectives on Pollution and the Basis of Fact: The Case of Environmental Degradation by the Hoosier Magnetics Plant in Ogdensburg, New York.

Author

Harris, Glenn and Earl, Joshua

Abstract

The Hoosier Magnetics plant is located in a residential neighborhood of Ogdensburg, just north of the Adirondack Park. The plant processes raw materials, with local deposition of atmospheric particulates. Noise pollution is also generated Soil remediation, facility upgrades, and a community awareness program resulted from a consent order with several state agencies in 1993. Nonetheless, noise and atmospheric releases continued Citizen dissatisfaction with noise is greatest at night. Local deposition is visible and difficult to clean. Neighbors acknowledge improvements, but still blame the factory for respiratory ailments. Hoosier believes its air pollution is harmless. NYSDEC and the company recently entered into a second consent order to determine the amount of fine particulates in atmospheric emissions. Events have been regularly reported by both a local daily and a regional daily newspaper. Early articles by the local paper were sympathetic to the company. The regional paper has emphasized controversy. Company management, state employees, local residents, and both newspapers have somewhat different perspectives. Still, there are major areas of agreement, which are taken to be the facts or reality of this situation. [ABSTRACT FROM AUTHOR]

Published
2006

32. Design and validation of a supragenome array for determination of the genomic content of Haemophilus influenzae isolates

Author

Eutsey, Rory A., Hiller, Natalia, Earl, Joshua P., Janto, Benjamin A., Dahlgren, Margaret E., Ahmed, Azad, Powell, Evan, Schultz, Matthew P., Gilsdorf, Janet R., Lixin Zhang, Smith, Arnold, Murphy, Timothy F., Sethi, Sanjay, Shen, Kai, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

BACKGROUND: Haemophilus influenzae colonizes the human nasopharynx as a commensal, and is etiologically associated with numerous opportunistic infections of the airway; it is also less commonly associated with invasive disease. Clinical isolates of H. influenzae display extensive genomic diversity and plasticity. The development of strategies to successfully prevent, diagnose and treat H. influenzae infections depends on tools to ascertain the gene content of individual isolates. RESULTS: We describe and validate a Haemophilus influenzae supragenome hybridization (SGH) array that can be used to characterize the full genic complement of any strain within the species, as well as strains from several highly related species. The array contains 31,307 probes that collectively cover essentially all alleles of the 2890 gene clusters identified from the whole genome sequencing of 24 clinical H. influenzae strains. The finite supragenome model predicts that these data include greater than 85% of all non-rare genes (where rare genes are defined as those present in less than 10% of sequenced strains). The veracity of the array was tested by comparing the whole genome sequences of eight strains with their hybridization data obtained using the supragenome array. The array predictions were correct and reproducible for ~ 98% of the gene content of all of the sequenced strains. This technology was then applied to an investigation of the gene content of 193 geographically and clinically diverse H. influenzae clinical strains. These strains came from multiple locations from five different continents and Papua New Guinea and include isolates from: the middle ears of persons with otitis media and otorrhea; lung aspirates and sputum samples from pneumonia and COPD patients, blood specimens from patients with sepsis; cerebrospinal fluid from patients with meningitis, as well as from pharyngeal specimens from healthy persons. CONCLUSIONS: These analyses provided the most comprehensive and detailed genomic/phylogenetic look at this species to date, and identified a subset of highly divergent strains that form a separate lineage within the species. This array provides a cost-effective and high-throughput tool to determine the gene content of any H. influenzae isolate or lineage. Furthermore, the method for probe selection can be applied to any species, given a group of available whole genome sequences.

33. Differences in genotype and virulence among four multidrug-resistant Streptococcus pneumoniae isolates belonging to the PMEN1 clone

Author

Hiller, Natalia, Eutsey, Rory A., Powell, Evan, Earl, Joshua P., Janto, Benjamin A., Martin, Darren P., Dawid, Suzanne, Ahmed, Azad, Longwell, Mark, Dahlgren, Margaret E., Ezzo, Suzanne, Herve Tettelin, Daugherty, Sean C., Mitchell, Timothy J., Hillman, Todd, Farrel J. Buchinsky, Tomasz, Alexander, Lencastre, Hermínia De, Sá-Leão, Raquel, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

We report on the comparative genomics and characterization of the virulence phenotypes of four S. pneumoniae strains that belong to the multidrug resistant clone PMEN1 (Spain(23F) ST81). Strains SV35-T23 and SV36-T3 were recovered in 1996 from the nasopharynx of patients at an AIDS hospice in New York. Strain SV36-T3 expressed capsule type 3 which is unusual for this clone and represents the product of an in vivo capsular switch event. A third PMEN1 isolate - PN4595-T23 - was recovered in 1996 from the nasopharynx of a child attending day care in Portugal, and a fourth strain - ATCC700669 - was originally isolated from a patient with pneumococcal disease in Spain in 1984. We compared the genomes among four PMEN1 strains and 47 previously sequenced pneumococcal isolates for gene possession differences and allelic variations within core genes. In contrast to the 47 strains - representing a variety of clonal types - the four PMEN1 strains grouped closely together, demonstrating high genomic conservation within this lineage relative to the rest of the species. In the four PMEN1 strains allelic and gene possession differences were clustered into 18 genomic regions including the capsule, the blp bacteriocins, erythromycin resistance, the MM1-2008 prophage and multiple cell wall anchored proteins. In spite of their genomic similarity, the high resolution chinchilla model was able to detect variations in virulence properties of the PMEN1 strains highlighting how small genic or allelic variation can lead to significant changes in pathogenicity and making this set of strains ideal for the identification of novel virulence determinants.

34. Generation of genic diversity among Streptococcus pneumoniae strains via horizontal gene transfer during a chronic polyclonal pediatric infection

Author

Hiller, Natalia, Ahmed, Azad, Powell, Evan, Martin, Darren P., Eutsey, Rory A., Earl, Joshua P., Janto, Benjamin A., Boissy, Robert, Hogg, Justin, Barbadora, Karen, Rangarajan Sampath, Lonergan, Shaun, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

Although there is tremendous interest in understanding the evolutionary roles of horizontal gene transfer (HGT) processes that occur during chronic polyclonal infections, to date there have been few studies that directly address this topic. We have characterized multiple HGT events that most likely occurred during polyclonal infection among nasopharyngeal strains of Streptococcus pneumoniae recovered from a child suffering from chronic upper respiratory and middle-ear infections. Whole genome sequencing and comparative genomics were performed on six isolates collected during symptomatic episodes over a period of seven months. From these comparisons we determined that five of the isolates were genetically highly similar and likely represented a dominant lineage. We analyzed all genic and allelic differences among all six isolates and found that all differences tended to occur within contiguous genomic blocks, suggestive of strain evolution by homologous recombination. From these analyses we identified three strains (two of which were recovered on two different occasions) that appear to have been derived sequentially, one from the next, each by multiple recombination events. We also identified a fourth strain that contains many of the genomic segments that differentiate the three highly related strains from one another, and have hypothesized that this fourth strain may have served as a donor multiple times in the evolution of the dominant strain line. The variations among the parent, daughter, and grand-daughter recombinant strains collectively cover greater than seven percent of the genome and are grouped into 23 chromosomal clusters. While capturing in vivo HGT, these data support the distributed genome hypothesis and suggest that a single competence event in pneumococci can result in the replacement of DNA at multiple non-adjacent loci.

35. Design and validation of a supragenome array for determination of the genomic content of Haemophilus influenzae isolates

Author

Eutsey, Rory A., Hiller, Natalia, Earl, Joshua P., Janto, Benjamin A., Dahlgren, Margaret E., Ahmed, Azad, Powell, Evan, Schultz, Matthew P., Gilsdorf, Janet R., Lixin Zhang, Smith, Arnold, Murphy, Timothy F., Sethi, Sanjay, Shen, Kai, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

BACKGROUND: Haemophilus influenzae colonizes the human nasopharynx as a commensal, and is etiologically associated with numerous opportunistic infections of the airway; it is also less commonly associated with invasive disease. Clinical isolates of H. influenzae display extensive genomic diversity and plasticity. The development of strategies to successfully prevent, diagnose and treat H. influenzae infections depends on tools to ascertain the gene content of individual isolates. RESULTS: We describe and validate a Haemophilus influenzae supragenome hybridization (SGH) array that can be used to characterize the full genic complement of any strain within the species, as well as strains from several highly related species. The array contains 31,307 probes that collectively cover essentially all alleles of the 2890 gene clusters identified from the whole genome sequencing of 24 clinical H. influenzae strains. The finite supragenome model predicts that these data include greater than 85% of all non-rare genes (where rare genes are defined as those present in less than 10% of sequenced strains). The veracity of the array was tested by comparing the whole genome sequences of eight strains with their hybridization data obtained using the supragenome array. The array predictions were correct and reproducible for ~ 98% of the gene content of all of the sequenced strains. This technology was then applied to an investigation of the gene content of 193 geographically and clinically diverse H. influenzae clinical strains. These strains came from multiple locations from five different continents and Papua New Guinea and include isolates from: the middle ears of persons with otitis media and otorrhea; lung aspirates and sputum samples from pneumonia and COPD patients, blood specimens from patients with sepsis; cerebrospinal fluid from patients with meningitis, as well as from pharyngeal specimens from healthy persons. CONCLUSIONS: These analyses provided the most comprehensive and detailed genomic/phylogenetic look at this species to date, and identified a subset of highly divergent strains that form a separate lineage within the species. This array provides a cost-effective and high-throughput tool to determine the gene content of any H. influenzae isolate or lineage. Furthermore, the method for probe selection can be applied to any species, given a group of available whole genome sequences.

36. Differences in genotype and virulence among four multidrug-resistant Streptococcus pneumoniae isolates belonging to the PMEN1 clone

Author

Hiller, Natalia, Eutsey, Rory A., Powell, Evan, Earl, Joshua P., Janto, Benjamin A., Martin, Darren P., Dawid, Suzanne, Ahmed, Azad, Longwell, Mark, Dahlgren, Margaret E., Ezzo, Suzanne, Herve Tettelin, Daugherty, Sean C., Mitchell, Timothy J., Hillman, Todd, Farrel J. Buchinsky, Tomasz, Alexander, Lencastre, Hermínia De, Sá-Leão, Raquel, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

We report on the comparative genomics and characterization of the virulence phenotypes of four S. pneumoniae strains that belong to the multidrug resistant clone PMEN1 (Spain(23F) ST81). Strains SV35-T23 and SV36-T3 were recovered in 1996 from the nasopharynx of patients at an AIDS hospice in New York. Strain SV36-T3 expressed capsule type 3 which is unusual for this clone and represents the product of an in vivo capsular switch event. A third PMEN1 isolate - PN4595-T23 - was recovered in 1996 from the nasopharynx of a child attending day care in Portugal, and a fourth strain - ATCC700669 - was originally isolated from a patient with pneumococcal disease in Spain in 1984. We compared the genomes among four PMEN1 strains and 47 previously sequenced pneumococcal isolates for gene possession differences and allelic variations within core genes. In contrast to the 47 strains - representing a variety of clonal types - the four PMEN1 strains grouped closely together, demonstrating high genomic conservation within this lineage relative to the rest of the species. In the four PMEN1 strains allelic and gene possession differences were clustered into 18 genomic regions including the capsule, the blp bacteriocins, erythromycin resistance, the MM1-2008 prophage and multiple cell wall anchored proteins. In spite of their genomic similarity, the high resolution chinchilla model was able to detect variations in virulence properties of the PMEN1 strains highlighting how small genic or allelic variation can lead to significant changes in pathogenicity and making this set of strains ideal for the identification of novel virulence determinants.

37. Virulence potential and genome-wide characterization of drug resistant Streptococcus pneumoniae clones selected in vivo by the 7-valent pneumococcal conjugate vaccine

Author

Frazão, Nelson, Hiller, Natalia, Powell, Evan, Earl, Joshua P., Ahmed, Azad, Sá-Leão, Raquel, Lencastre, Hermínia De, Ehrlich, Garth D., and Tomasz, Alexander

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

We used mouse models of pneumococcal colonization and disease combined with full genome sequencing to characterize three major drug resistant clones of S. pneumoniae that were recovered from the nasopharynx of PCV7-immunized children in Portugal. The three clones--serotype 6A (ST2191), serotype 15A (ST63) and serotype 19A (ST276) carried some of the same drug resistance determinants already identified in nasopharyngeal isolates from the pre-PCV7 era. The three clones were able to colonize efficiently the mouse nasopharyngeal mucosa where populations of these pneumococci were retained for as long as 21 days. During this period, the three clones were able to asymptomatically invade the olfactory bulbs, brain, lungs and the middle ear mucosa and established populations in these tissues. The virulence potential of the three clones was poor even at high inoculum (10(5) CFU per mouse) concentrations in the mouse septicemia model and was undetectable in the pneumonia model. Capsular type 3 transformants of clones 6A and 19A prepared in the laboratory produced lethal infection at low cell concentration (10(3) CFU per mouse) but the same transformants became impaired in their potential to colonize, indicating the importance of the capsular polysaccharide in both disease and colonization. The three clones were compared to the genomes of 56 S. pneumoniae strains for which sequence information was available in the public databank. Clone 15A (ST63) only differed from the serotype 19F clone G54 in a very few genes including serotype so that this clone may be considered the product of a capsular switch. While no strain with comparable degree of similarity to clone 19A (ST276) was found among the sequenced isolates, by MLST this clone is a single locust variant (SLV) of Denmark14-ST230 international clone. Clone 6A (ST2191) was most similar to the penicillin resistant Hungarian serotype 19A clone.

38. Virulence potential and genome-wide characterization of drug resistant Streptococcus pneumoniae clones selected in vivo by the 7-valent pneumococcal conjugate vaccine

Author

Frazão, Nelson, Hiller, Natalia, Powell, Evan, Earl, Joshua P., Ahmed, Azad, Sá-Leão, Raquel, Lencastre, Hermínia De, Ehrlich, Garth D., and Tomasz, Alexander

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

We used mouse models of pneumococcal colonization and disease combined with full genome sequencing to characterize three major drug resistant clones of S. pneumoniae that were recovered from the nasopharynx of PCV7-immunized children in Portugal. The three clones--serotype 6A (ST2191), serotype 15A (ST63) and serotype 19A (ST276) carried some of the same drug resistance determinants already identified in nasopharyngeal isolates from the pre-PCV7 era. The three clones were able to colonize efficiently the mouse nasopharyngeal mucosa where populations of these pneumococci were retained for as long as 21 days. During this period, the three clones were able to asymptomatically invade the olfactory bulbs, brain, lungs and the middle ear mucosa and established populations in these tissues. The virulence potential of the three clones was poor even at high inoculum (10(5) CFU per mouse) concentrations in the mouse septicemia model and was undetectable in the pneumonia model. Capsular type 3 transformants of clones 6A and 19A prepared in the laboratory produced lethal infection at low cell concentration (10(3) CFU per mouse) but the same transformants became impaired in their potential to colonize, indicating the importance of the capsular polysaccharide in both disease and colonization. The three clones were compared to the genomes of 56 S. pneumoniae strains for which sequence information was available in the public databank. Clone 15A (ST63) only differed from the serotype 19F clone G54 in a very few genes including serotype so that this clone may be considered the product of a capsular switch. While no strain with comparable degree of similarity to clone 19A (ST276) was found among the sequenced isolates, by MLST this clone is a single locust variant (SLV) of Denmark14-ST230 international clone. Clone 6A (ST2191) was most similar to the penicillin resistant Hungarian serotype 19A clone.

39. Generation of genic diversity among Streptococcus pneumoniae strains via horizontal gene transfer during a chronic polyclonal pediatric infection

Author

Hiller, Natalia, Ahmed, Azad, Powell, Evan, Martin, Darren P., Eutsey, Rory A., Earl, Joshua P., Janto, Benjamin A., Boissy, Robert, Hogg, Justin, Barbadora, Karen, Rangarajan Sampath, Lonergan, Shaun, J. Christopher Post, Hu, Fen Z., and Ehrlich, Garth D.

Subjects
FOS: Biological sciences, 69999 Biological Sciences not elsewhere classified, 3. Good health
Abstract

Although there is tremendous interest in understanding the evolutionary roles of horizontal gene transfer (HGT) processes that occur during chronic polyclonal infections, to date there have been few studies that directly address this topic. We have characterized multiple HGT events that most likely occurred during polyclonal infection among nasopharyngeal strains of Streptococcus pneumoniae recovered from a child suffering from chronic upper respiratory and middle-ear infections. Whole genome sequencing and comparative genomics were performed on six isolates collected during symptomatic episodes over a period of seven months. From these comparisons we determined that five of the isolates were genetically highly similar and likely represented a dominant lineage. We analyzed all genic and allelic differences among all six isolates and found that all differences tended to occur within contiguous genomic blocks, suggestive of strain evolution by homologous recombination. From these analyses we identified three strains (two of which were recovered on two different occasions) that appear to have been derived sequentially, one from the next, each by multiple recombination events. We also identified a fourth strain that contains many of the genomic segments that differentiate the three highly related strains from one another, and have hypothesized that this fourth strain may have served as a donor multiple times in the evolution of the dominant strain line. The variations among the parent, daughter, and grand-daughter recombinant strains collectively cover greater than seven percent of the genome and are grouped into 23 chromosomal clusters. While capturing in vivo HGT, these data support the distributed genome hypothesis and suggest that a single competence event in pneumococci can result in the replacement of DNA at multiple non-adjacent loci.

40. Characterization of the family-level Borreliaceae pan-genome and development of an episomal typing protocol.

Author

Socarras KM, Marino MC, Earl JP, Ehrlich RL, Cramer NA, Mell JC, Sen B, Ahmed A, Marconi RT, and Ehrlich GD

Abstract

Background: The Borreliaceae family includes many obligate parasitic bacterial species which are etiologically associated with a myriad of zoonotic borrelioses including Lyme disease and vector-borne relapsing fevers. Infections by the Borreliaceae are difficult to detect by both direct and indirect methods, often leading to delayed and missed diagnoses. Efforts to improve diagnoses center around the development of molecular diagnostics (MDx), but due to deep tissue sequestration of the causative spirochaetes and the lack of persistent bacteremias, even MDx assays suffer from a lack of sensitivity. Additionally, the highly extensive genomic heterogeneity among isolates, even within the same species, contributes to the lack of assay sensitivity as single target assays cannot provide universal coverage. This within-species heterogeneity is partly due to differences in replicon repertoires and genomic structures that have likely arisen to support the complex Borreliaceae lifecycle in which these parasites have to survive in multiple hosts each with unique immune responses., Results: We constructed a Borreliaceae family-level pangenome and characterized the phylogenetic relationships among the constituent taxa which supports the recent taxonomy of splitting the family into at least two genera. Gene content pro les were created for the majority of the Borreliaceae replicons, providing for the first time their unambiguous molecular typing., Conclusion: Our characterization of the Borreliaceae pan-genome supports the splitting of the former Borrelia genus into two genera and provides for the phylogenetic placement of several non-species designated isolates. Mining this family-level pangenome will enable precision diagnostics corresponding to gene content-driven clinical outcomes while also providing targets for interventions., Competing Interests: Competing interests (NONE) Additional Declarations: No competing interests reported.

Published
2024
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41. The Bacterial Guide to Designing a Diversified Gene Portfolio

Author

Innamorati KA, Earl JP, Aggarwal SD, Ehrlich GD, Hiller NL, Tettelin H, and Medini D

Abstract

The stunning ability of bacteria to evolve and adapt has contributed to the success of these single cells, which have inhabited the Earth for billions of years and play vital roles in the environment and in human health. The goal of this chapter is to present and discuss the population-level organizational scheme of bacterial pangenomes, wherein genes are distributed among the strains of a species, such that each individual strain encodes only a subset of the genes available at the population level. Genes from the accessory/distributed genome (those present only in a subset of strains within a species) impart diverse functions or variations on a conserved function to strains. Moreover, horizontal gene transfer generates novel gene combinations. The maintenance and spread of any given gene arrangement are influenced by fitness. Further, the extent of genomic plasticity is regulated by restriction modification systems, phage-defense systems, and Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)—associated proteins (CRISPR-Cas). The combination of a pangenome structure and genomic plasticity reveals a successful strategy for bacterial adaptation to ever-changing environments. From a clinical perspective, pangenome analyses inform the selection of therapeutic targets, designed to focus either on an entire species or on virulence features within a species. Further, they provide a framework for modeling the efficacy of drugs and vaccines. In summary, following the explosion in sequencing technology, pangenome studies have revealed remarkable genomic organizations at the levels of species, with important implications to our understanding of evolution, and our ability to design therapeutics and predict their long-term outcomes., (Copyright 2020, The Author(s).)

Published
2020
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