Your search keyword '"Shea TP"' showing total 28 results

1. Cavernous hemangioma of the foot. A case report and review

Author

Borden Ji and Shea Tp

Subjects

Adult, Male, medicine.medical_specialty, business.industry, Soft Tissue Neoplasms, General Medicine, medicine.disease, Dermatology, Foot Diseases, Hemangioma, Hemangioma, Cavernous, medicine, Humans, business, Foot (unit)

Published

1976

2. Overview and results of a foot health screening project

Author

Mittleman Mg, Shea Tp, and Gurnick Kl

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, business.industry, Infant, Newborn, Infant, General Medicine, Middle Aged, California, Foot Diseases, Child, Preschool, Physical therapy, Humans, Mass Screening, Medicine, Female, Community Health Services, Child, business, Health screening, Foot (unit)

Published

1981

3. Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana

Author

Salanoubat, M., Lemcke, K., Rieger, M., Ansorge, W., Unseld, M., Fartmann, B., Valle, G., Blocker, H., Perez-Alonso, M., Obermaier, B., Delseny, M., Boutry, M., Grivell, La, Mache, R., Puigdomenech, P., Simone, V., Choisne, N., Artiguenave, F., Robert, C., Brottier, P., Wincker, P., Cattolico, L., Weissenbach, J., Saurin, W., Quetier, F., Schafer, M., Muller-Auer, S., Gabel, C., Fuchs, M., Benes, V., Wurmbach, E., Drzonek, H., Erfle, H., Jordan, N., Bangert, S., Wiedelmann, R., Kranz, H., Voss, H., Holland, R., Brandt, P., Nyakatura, G., Vezzi, A., D Angelo, M., Alberto Pallavicini, Toppo, S., Simionati, B., Conrad, A., Hornischer, K., Kauer, G., Lohnert, Th, Nordsiek, G., Reichelt, J., Scharfe, M., Schon, O., Bargues, M., Terol, J., Climent, J., Navarro, P., Collado, C., Perez-Perez, A., Ottenwalder, B., Duchemin, D., Cooke, R., Laudie, M., Berger-Llauro, C., Purnelle, B., Masuy, D., Haan, M., Maarse, Ac, Alcaraz, Jp, Cottet, A., Casacuberta, E., Monfort, A., Argiriou, A., Flores, M., Liguori, R., Vitale, D., Mannhaupt, G., Haase, D., Schoof, H., Rudd, S., Zaccaria, P., Mewes, Hw, Mayer, Kfx, Kaul, S., Town, Cd, Koo, Hl, Tallon, Lj, Jenkins, J., Rooney, T., Rizzo, M., Walts, A., Utterback, T., Fujii, Cy, Shea, Tp, Creasy, Th, Haas, B., Maiti, R., Wu, Dy, Peterson, J., Aken, S., Pai, G., Militscher, J., Sellers, P., Gill, Je, Feldblyum, Tv, Preuss, D., Lin, Xy, Nierman, Wc, Salzberg, Sl, White, O., Venter, Jc, Fraser, Cm, Kaneko, T., Nakamura, Y., Sato, S., Kato, T., Asamizu, E., Sasamoto, S., Kimura, T., Idesawa, K., Kawashima, K., Kishida, Y., Kiyokawa, C., Kohara, M., Matsumoto, M., Matsuno, A., Muraki, A., Nakayama, S., Nakazaki, N., Shinpo, S., Takeuchi, C., Wada, T., Watanabe, A., Yamada, M., Yasuda, M., Tabata, S., European Union Chromosome 3 Arabid, Inst Genomic Res, and Dna, Kazusa Res Inst

4. Overview and results of a foot health screening project

Author

Gurnick, KL, primary, Mittleman, MG, primary, and Shea, TP, primary

Published

1981

5. Neurilemmoma of the lateral plantar nerve: a case report

Author

Coulter, KR, primary, Gerbert, J, primary, and Shea, TP, primary

Published

1978

6. Fungal symbiont transmitted by free-living mice promotes type 2 immunity.

Author

Liao Y, Gao IH, Kusakabe T, Lin WY, Grier A, Pan X, Morzhanaeva O, Shea TP, Yano H, Karo-Atar D, Olsen KA, Oh JH, Vandegrift KJ, King IL, Cuomo CA, Artis D, Rehermann B, Lipman N, and Iliev ID

Subjects

Animals, Female, Male, Mice, Eosinophilia immunology, Eosinophilia microbiology, Gastrointestinal Tract microbiology, Gastrointestinal Tract immunology, Mice, Inbred C57BL, Mycobiome immunology, Mice, Knockout, Mice, Inbred BALB C, Interleukin-1 Receptor-Like 1 Protein immunology, Gastrointestinal Microbiome immunology, Interleukin-33 immunology, Symbiosis immunology, Saccharomycetales physiology, Immunity

Abstract

The gut mycobiota is crucial for intestinal homeostasis and immune function 1 . Yet its variability and inconsistent fungal colonization of laboratory mice hinders the study of the evolutionary and immune processes that underpin commensalism 2,3 . Here, we show that Kazachstania pintolopesii is a fungal commensal in wild urban and rural mice, with an exceptional ability to colonize the mouse gastrointestinal tract and dominate the gut mycobiome. Kazachstania pintolopesii colonization occurs in a bacteria-independent manner, results in enhanced colonization resistance to other fungi and is shielded from host immune surveillance, allowing commensal presence. Following changes in the mucosal environment, K. pintolopesii colonization triggers a type 2 immune response in mice and induces gastrointestinal eosinophilia. Mechanistically, we determined that K. pintolopesii activates type 2 immunity via the induction of epithelial IL-33 and downstream IL-33-ST2 signalling during mucus fluctuations. Kazachstania pintolopesii-induced type 2 immunity enhanced resistance to helminth infections or aggravated gastrointestinal allergy in a context-dependent manner. Our findings indicate that K. pintolopesii is a mouse commensal and serves as a valuable model organism for studying gut fungal commensalism and immunity in its native host. Its unnoticed presence in mouse facilities highlights the need to evaluate its influence on experimental outcomes and phenotypes., Competing Interests: Competing interests: I.D.I. has participated in discussion with Moderna, Inc. D.A. has contributed to scientific advisory boards at Pfizer, Takeda, FARE and the KRF. B.R. and J.H.O. disclose that NIDDK has a Collaborative Research Agreement and Development Award with Genentech and granted a licence on WildR mice to Taconic Biosciences. The other authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

7. Inter-species geographic signatures for tracing horizontal gene transfer and long-term persistence of carbapenem resistance.

Author

Salamzade R, Manson AL, Walker BJ, Brennan-Krohn T, Worby CJ, Ma P, He LL, Shea TP, Qu J, Chapman SB, Howe W, Young SK, Wurster JI, Delaney ML, Kanjilal S, Onderdonk AB, Bittencourt CE, Gussin GM, Kim D, Peterson EM, Ferraro MJ, Hooper DC, Shenoy ES, Cuomo CA, Cosimi LA, Huang SS, Kirby JE, Pierce VM, Bhattacharyya RP, and Earl AM

Subjects

Anti-Bacterial Agents pharmacology, Humans, Plasmids genetics, Prospective Studies, Carbapenems pharmacology, Gene Transfer, Horizontal

Abstract

Background: Carbapenem-resistant Enterobacterales (CRE) are an urgent global health threat. Inferring the dynamics of local CRE dissemination is currently limited by our inability to confidently trace the spread of resistance determinants to unrelated bacterial hosts. Whole-genome sequence comparison is useful for identifying CRE clonal transmission and outbreaks, but high-frequency horizontal gene transfer (HGT) of carbapenem resistance genes and subsequent genome rearrangement complicate tracing the local persistence and mobilization of these genes across organisms., Methods: To overcome this limitation, we developed a new approach to identify recent HGT of large, near-identical plasmid segments across species boundaries, which also allowed us to overcome technical challenges with genome assembly. We applied this to complete and near-complete genome assemblies to examine the local spread of CRE in a systematic, prospective collection of all CRE, as well as time- and species-matched carbapenem-susceptible Enterobacterales, isolated from patients from four US hospitals over nearly 5 years., Results: Our CRE collection comprised a diverse range of species, lineages, and carbapenem resistance mechanisms, many of which were encoded on a variety of promiscuous plasmid types. We found and quantified rearrangement, persistence, and repeated transfer of plasmid segments, including those harboring carbapenemases, between organisms over multiple years. Some plasmid segments were found to be strongly associated with specific locales, thus representing geographic signatures that make it possible to trace recent and localized HGT events. Functional analysis of these signatures revealed genes commonly found in plasmids of nosocomial pathogens, such as functions required for plasmid retention and spread, as well survival against a variety of antibiotic and antiseptics common to the hospital environment., Conclusions: Collectively, the framework we developed provides a clearer, high-resolution picture of the epidemiology of antibiotic resistance importation, spread, and persistence in patients and healthcare networks., (© 2022. The Author(s).)

Published

2022

8. Chromosome-Level Genome Assembly of a Human Fungal Pathogen Reveals Synteny among Geographically Distinct Species.

Author

Voorhies M, Cohen S, Shea TP, Petrus S, Muñoz JF, Poplawski S, Goldman WE, Michael TP, Cuomo CA, Sil A, and Beyhan S

Subjects

Humans, Synteny, Australia, Saccharomyces cerevisiae genetics, Chromosomes, Genome, Fungal, Histoplasma genetics, Mycoses

Abstract

Histoplasma capsulatum, a dimorphic fungal pathogen, is the most common cause of fungal respiratory infections in immunocompetent hosts. Histoplasma is endemic in the Ohio and Mississippi River Valleys in the United States and is also distributed worldwide. Previous studies have revealed at least eight clades, each specific to a geographic location: North American classes 1 and 2 (NAm 1 and NAm 2), Latin American groups A and B (LAm A and LAm B), Eurasian, Netherlands, Australian and African, and an additional distinct lineage (H81) comprised of Panamanian isolates. Previously assembled Histoplasma genomes are highly fragmented, with the highly repetitive G217B (NAm 2) strain, which has been used for most whole-genome-scale transcriptome studies, assembled into over 250 contigs. In this study, we set out to fully assemble the repeat regions and characterize the large-scale genome architecture of Histoplasma species. We resequenced five Histoplasma strains (WU24 [NAm 1], G217B [NAm 2], H88 [African], G186AR [Panama], and G184AR [Panama]) using Oxford Nanopore Technologies long-read sequencing technology. Here, we report chromosomal-level assemblies for all five strains, which exhibit extensive synteny among the geographically distant Histoplasma isolates. The new assemblies revealed that RYP2 , a major regulator of morphology and virulence, is duplicated in G186AR. In addition, we mapped previously generated transcriptome data sets onto the newly assembled chromosomes. Our analyses revealed that the expression of transposons and transposon-embedded genes are upregulated in yeast phase compared to mycelial phase in the G217B and H88 strains. This study provides an important resource for fungal researchers and further highlights the importance of chromosomal-level assemblies in analyzing high-throughput data sets. IMPORTANCE Histoplasma species are dimorphic fungi causing significant morbidity and mortality worldwide. These fungi grow as mold in the soil and as budding yeast within the human host. Histoplasma can be isolated from soil in diverse regions, including North America, South America, Africa, and Europe. Phylogenetically distinct species of Histoplasma have been isolated and sequenced. However, for the commonly used strains, genome assemblies have been fragmented, leading to underutilization of genome-scale data. This study provides chromosome-level assemblies of the commonly used Histoplasma strains using long-read sequencing technology. Comparative analysis of these genomes shows largely conserved gene order within the chromosomes. Mapping existing transcriptome data on these new assemblies reveals clustering of transcriptionally coregulated genes. The results of this study highlight the importance of obtaining chromosome-level assemblies in understanding the biology of human fungal pathogens.

Published

2022

9. Generating Complete Genome Assemblies of Candida auris.

Author

Shea TP and Cuomo CA

Subjects

Antifungal Agents therapeutic use, Candida auris, Disease Outbreaks, Genomics, Microbial Sensitivity Tests, Candida genetics, Candidiasis microbiology

Abstract

Genomic studies of Candida auris are underpinned by the generation of high-quality genome assemblies. These reference genomes have been essential for investigations of the evolution and epidemiology of this emerging fungal pathogen. In addition to genomic epidemiology studies of local outbreaks and analysis of the global emergence of this species, comparisons of genomes of isolates from the five major clades have revealed differences in gene content and genomic structure. Here, we provide a detailed protocol for generating complete genome assemblies for C. auris., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

10. Diversity, multifaceted evolution, and facultative saprotrophism in the European Batrachochytrium salamandrivorans epidemic.

Author

Kelly M, Pasmans F, Muñoz JF, Shea TP, Carranza S, Cuomo CA, and Martel A

Subjects

Acclimatization genetics, Amphibians microbiology, Animals, Batrachochytrium classification, Batrachochytrium physiology, Chytridiomycota classification, Chytridiomycota genetics, Chytridiomycota physiology, Disease Outbreaks, Epidemics, Europe epidemiology, Genes, Fungal genetics, Genome, Fungal genetics, Mycoses microbiology, Phylogeny, Sequence Analysis, DNA methods, Caudata microbiology, Batrachochytrium genetics, Evolution, Molecular, Genetic Variation, Mycoses epidemiology

Abstract

While emerging fungi threaten global biodiversity, the paucity of fungal genome assemblies impedes thoroughly characterizing epidemics and developing effective mitigation strategies. Here, we generate de novo genomic assemblies for six outbreaks of the emerging pathogen Batrachochytrium salamandrivorans (Bsal). We reveal the European epidemic currently damaging amphibian populations to comprise multiple, highly divergent lineages demonstrating isolate-specific adaptations and metabolic capacities. In particular, we show extensive gene family expansions and acquisitions, through a variety of evolutionary mechanisms, and an isolate-specific saprotrophic lifecycle. This finding both explains the chytrid's ability to divorce transmission from host density, producing Bsal's enigmatic host population declines, and is a key consideration in developing successful mitigation measures., (© 2021. The Author(s).)

Published

2021

11. Transmission of human-associated microbiota along family and social networks.

Author

Brito IL, Gurry T, Zhao S, Huang K, Young SK, Shea TP, Naisilisili W, Jenkins AP, Jupiter SD, Gevers D, and Alm EJ

Subjects

Bacteria genetics, Female, Fiji, Gastrointestinal Microbiome genetics, Genomics, Genotype, Host Specificity, Humans, Interspersed Repetitive Sequences, Male, Polymorphism, Single Nucleotide, Family, Microbiota genetics, Social Networking

Abstract

The human microbiome, described as an accessory organ because of the crucial functions it provides, is composed of species that are uniquely found in humans 1,2 . Yet, surprisingly little is known about the impact of routine interpersonal contacts in shaping microbiome composition. In a relatively 'closed' cohort of 287 people from the Fiji Islands, where common barriers to bacterial transmission are absent, we examine putative bacterial transmission in individuals' gut and oral microbiomes using strain-level data from both core single-nucleotide polymorphisms and flexible genomic regions. We find a weak signal of transmission, defined by the inferred sharing of genotypes, across many organisms that, in aggregate, reveals strong transmission patterns, most notably within households and between spouses. We were unable to determine the directionality of transmission nor whether it was direct. We further find that women harbour strains more closely related to those harboured by their familial and social contacts than men, and that transmission patterns of oral-associated and gut-associated microbiota need not be the same. Using strain-level data alone, we are able to confidently predict a subset of spouses, highlighting the role of shared susceptibilities, behaviours or social interactions that distinguish specific links in the social network.

Published

2019

12. Multi-institute analysis of carbapenem resistance reveals remarkable diversity, unexplained mechanisms, and limited clonal outbreaks.

Author

Cerqueira GC, Earl AM, Ernst CM, Grad YH, Dekker JP, Feldgarden M, Chapman SB, Reis-Cunha JL, Shea TP, Young S, Zeng Q, Delaney ML, Kim D, Peterson EM, O'Brien TF, Ferraro MJ, Hooper DC, Huang SS, Kirby JE, Onderdonk AB, Birren BW, Hung DT, Cosimi LA, Wortman JR, Murphy CI, and Hanage WP

Subjects

Bacterial Proteins genetics, Boston epidemiology, Clone Cells, Cross Infection epidemiology, Cross Infection microbiology, Cross Infection transmission, Enterobacteriaceae enzymology, Enterobacteriaceae genetics, Enterobacteriaceae Infections epidemiology, Enterobacteriaceae Infections transmission, Genetic Variation, Genome, Bacterial, Humans, Prospective Studies, Sequence Alignment, Transformation, Bacterial, beta-Lactam Resistance physiology, beta-Lactamases genetics, Carbapenems pharmacology, DNA Transposable Elements genetics, Disease Outbreaks, Enterobacteriaceae drug effects, Enterobacteriaceae Infections microbiology, R Factors genetics, beta-Lactam Resistance genetics

Abstract

Carbapenem-resistant Enterobacteriaceae (CRE) are among the most severe threats to the antibiotic era. Multiple different species can exhibit resistance due to many different mechanisms, and many different mobile elements are capable of transferring resistance between lineages. We prospectively sampled CRE from hospitalized patients from three Boston-area hospitals, together with a collection of CRE from a single California hospital, to define the frequency and characteristics of outbreaks and determine whether there is evidence for transfer of strains within and between hospitals and the frequency with which resistance is transferred between lineages or species. We found eight species exhibiting resistance, with the majority of our sample being the sequence type 258 (ST258) lineage of Klebsiella pneumoniae There was very little evidence of extensive hospital outbreaks, but a great deal of variation in resistance mechanisms and the genomic backgrounds carrying these mechanisms. Local transmission was evident in clear phylogeographic structure between the samples from the two coasts. The most common resistance mechanisms were KPC (K. pneumoniae carbapenemases) beta-lactamases encoded by bla KPC2 , bla KPC3 , and bla KPC4 , which were transferred between strains and species by seven distinct subgroups of the Tn4401 element. We also found evidence for previously unrecognized resistance mechanisms that produced resistance when transformed into a susceptible genomic background. The extensive variation, together with evidence of transmission beyond limited clonal outbreaks, points to multiple unsampled transmission chains throughout the continuum of care, including asymptomatic carriage and transmission of CRE. This finding suggests that to control this threat, we need an aggressive approach to surveillance and isolation., Competing Interests: The authors declare no conflict of interest.

Published

2017

13. Genomic and functional analyses of Mycobacterium tuberculosis strains implicate ald in D-cycloserine resistance.

Author

Desjardins CA, Cohen KA, Munsamy V, Abeel T, Maharaj K, Walker BJ, Shea TP, Almeida DV, Manson AL, Salazar A, Padayatchi N, O'Donnell MR, Mlisana KP, Wortman J, Birren BW, Grosset J, Earl AM, and Pym AS

Subjects

Alanine Dehydrogenase genetics, Alanine Dehydrogenase metabolism, Alanine Racemase genetics, Antitubercular Agents, Drug Resistance, Bacterial genetics, Gene Knockout Techniques, Genome, Bacterial, Microbial Sensitivity Tests, Mutation, Mycobacterium tuberculosis enzymology, Antibiotics, Antitubercular pharmacology, Cycloserine pharmacology, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis genetics

Abstract

A more complete understanding of the genetic basis of drug resistance in Mycobacterium tuberculosis is critical for prompt diagnosis and optimal treatment, particularly for toxic second-line drugs such as D-cycloserine. Here we used the whole-genome sequences from 498 strains of M. tuberculosis to identify new resistance-conferring genotypes. By combining association and correlated evolution tests with strategies for amplifying signal from rare variants, we found that loss-of-function mutations in ald (Rv2780), encoding L-alanine dehydrogenase, were associated with unexplained drug resistance. Convergent evolution of this loss of function was observed exclusively among multidrug-resistant strains. Drug susceptibility testing established that ald loss of function conferred resistance to D-cycloserine, and susceptibility to the drug was partially restored by complementation of ald. Clinical strains with mutations in ald and alr exhibited increased resistance to D-cycloserine when cultured in vitro. Incorporation of D-cycloserine resistance in novel molecular diagnostics could allow for targeted use of this toxic drug among patients with susceptible infections.

Published

2016

14. Evolution of Extensively Drug-Resistant Tuberculosis over Four Decades: Whole Genome Sequencing and Dating Analysis of Mycobacterium tuberculosis Isolates from KwaZulu-Natal.

Author

Cohen KA, Abeel T, Manson McGuire A, Desjardins CA, Munsamy V, Shea TP, Walker BJ, Bantubani N, Almeida DV, Alvarado L, Chapman SB, Mvelase NR, Duffy EY, Fitzgerald MG, Govender P, Gujja S, Hamilton S, Howarth C, Larimer JD, Maharaj K, Pearson MD, Priest ME, Zeng Q, Padayatchi N, Grosset J, Young SK, Wortman J, Mlisana KP, O'Donnell MR, Birren BW, Bishai WR, Pym AS, and Earl AM

Subjects

Adult, Disease Outbreaks, Extensively Drug-Resistant Tuberculosis drug therapy, Extensively Drug-Resistant Tuberculosis epidemiology, Female, Humans, Male, Microbial Sensitivity Tests, Mutation, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis isolation & purification, Sequence Analysis, DNA, South Africa epidemiology, Antitubercular Agents pharmacology, Extensively Drug-Resistant Tuberculosis genetics, Genome, Bacterial, Mycobacterium tuberculosis genetics

Abstract

Background: The continued advance of antibiotic resistance threatens the treatment and control of many infectious diseases. This is exemplified by the largest global outbreak of extensively drug-resistant (XDR) tuberculosis (TB) identified in Tugela Ferry, KwaZulu-Natal, South Africa, in 2005 that continues today. It is unclear whether the emergence of XDR-TB in KwaZulu-Natal was due to recent inadequacies in TB control in conjunction with HIV or other factors. Understanding the origins of drug resistance in this fatal outbreak of XDR will inform the control and prevention of drug-resistant TB in other settings. In this study, we used whole genome sequencing and dating analysis to determine if XDR-TB had emerged recently or had ancient antecedents., Methods and Findings: We performed whole genome sequencing and drug susceptibility testing on 337 clinical isolates of Mycobacterium tuberculosis collected in KwaZulu-Natal from 2008 to 2013, in addition to three historical isolates, collected from patients in the same province and including an isolate from the 2005 Tugela Ferry XDR outbreak, a multidrug-resistant (MDR) isolate from 1994, and a pansusceptible isolate from 1995. We utilized an array of whole genome comparative techniques to assess the relatedness among strains, to establish the order of acquisition of drug resistance mutations, including the timing of acquisitions leading to XDR-TB in the LAM4 spoligotype, and to calculate the number of independent evolutionary emergences of MDR and XDR. Our sequencing and analysis revealed a 50-member clone of XDR M. tuberculosis that was highly related to the Tugela Ferry XDR outbreak strain. We estimated that mutations conferring isoniazid and streptomycin resistance in this clone were acquired 50 y prior to the Tugela Ferry outbreak (katG S315T [isoniazid]; gidB 130 bp deletion [streptomycin]; 1957 [95% highest posterior density (HPD): 1937-1971]), with the subsequent emergence of MDR and XDR occurring 20 y (rpoB L452P [rifampicin]; pncA 1 bp insertion [pyrazinamide]; 1984 [95% HPD: 1974-1992]) and 10 y (rpoB D435G [rifampicin]; rrs 1400 [kanamycin]; gyrA A90V [ofloxacin]; 1995 [95% HPD: 1988-1999]) prior to the outbreak, respectively. We observed frequent de novo evolution of MDR and XDR, with 56 and nine independent evolutionary events, respectively. Isoniazid resistance evolved before rifampicin resistance 46 times, whereas rifampicin resistance evolved prior to isoniazid only twice. We identified additional putative compensatory mutations to rifampicin in this dataset. One major limitation of this study is that the conclusions with respect to ordering and timing of acquisition of mutations may not represent universal patterns of drug resistance emergence in other areas of the globe., Conclusions: In the first whole genome-based analysis of the emergence of drug resistance among clinical isolates of M. tuberculosis, we show that the ancestral precursor of the LAM4 XDR outbreak strain in Tugela Ferry gained mutations to first-line drugs at the beginning of the antibiotic era. Subsequent accumulation of stepwise resistance mutations, occurring over decades and prior to the explosion of HIV in this region, yielded MDR and XDR, permitting the emergence of compensatory mutations. Our results suggest that drug-resistant strains circulating today reflect not only vulnerabilities of current TB control efforts but also those that date back 50 y. In drug-resistant TB, isoniazid resistance was overwhelmingly the initial resistance mutation to be acquired, which would not be detected by current rapid molecular diagnostics employed in South Africa that assess only rifampicin resistance.

Published

2015

15. Comparative genomics of recent Shiga toxin-producing Escherichia coli O104:H4: short-term evolution of an emerging pathogen.

Author

Grad YH, Godfrey P, Cerquiera GC, Mariani-Kurkdjian P, Gouali M, Bingen E, Shea TP, Haas BJ, Griggs A, Young S, Zeng Q, Lipsitch M, Waldor MK, Weill FX, Wortman JR, and Hanage WP

Subjects

Cluster Analysis, DNA, Bacterial chemistry, DNA, Bacterial genetics, Diarrhea epidemiology, Diarrhea microbiology, Escherichia coli Infections epidemiology, Europe epidemiology, Hemolytic-Uremic Syndrome epidemiology, Hemolytic-Uremic Syndrome microbiology, Humans, Interspersed Repetitive Sequences, Molecular Epidemiology, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Biological Evolution, Escherichia coli Infections microbiology, Genome, Bacterial, Shiga-Toxigenic Escherichia coli genetics

Abstract

Unlabelled: The large outbreak of diarrhea and hemolytic uremic syndrome (HUS) caused by Shiga toxin-producing Escherichia coli O104:H4 in Europe from May to July 2011 highlighted the potential of a rarely identified E. coli serogroup to cause severe disease. Prior to the outbreak, there were very few reports of disease caused by this pathogen and thus little known of its diversity and evolution. The identification of cases of HUS caused by E. coli O104:H4 in France and Turkey after the outbreak and with no clear epidemiological links raises questions about whether these sporadic cases are derived from the outbreak. Here, we report genome sequences of five independent isolates from these cases and results of a comparative analysis with historical and 2011 outbreak isolates. These analyses revealed that the five isolates are not derived from the outbreak strain; however, they are more closely related to the outbreak strain and each other than to isolates identified prior to the 2011 outbreak. Over the short time scale represented by these closely related organisms, the majority of genome variation is found within their mobile genetic elements: none of the nine O104:H4 isolates compared here contain the same set of plasmids, and their prophages and genomic islands also differ. Moreover, the presence of closely related HUS-associated E. coli O104:H4 isolates supports the contention that fully virulent O104:H4 isolates are widespread and emphasizes the possibility of future food-borne E. coli O104:H4 outbreaks., Importance: In the summer of 2011, a large outbreak of bloody diarrhea with a high rate of severe complications took place in Europe, caused by a previously rarely seen Escherichia coli strain of serogroup O104:H4. Identification of subsequent infections caused by E. coli O104:H4 raised questions about whether these new cases represented ongoing transmission of the outbreak strain. In this study, we sequenced the genomes of isolates from five recent cases and compared them with historical isolates. The analyses reveal that, in the very short term, evolution of the bacterial genome takes place in parts of the genome that are exchanged among bacteria, and these regions contain genes involved in adaptation to local environments. We show that these recent isolates are not derived from the outbreak strain but are very closely related and share many of the same disease-causing genes, emphasizing the concern that these bacteria may cause future severe outbreaks.

Published

2013

16. Reply to Guy et al.: Support for a bottleneck in the 2011 Escherichia coli O104:H4 outbreak in Germany.

Author

Grad YH, Lipsitch M, Griggs AD, Haas BJ, Shea TP, McCowan C, Montmayeur A, FitzGerald M, Wortman JR, Krogfelt KA, Bingen E, Weill FX, Tietze E, Flieger A, Lander ES, Nusbaum C, Birren BW, Hung DT, and Hanage WP

Subjects

Humans, Disease Outbreaks statistics & numerical data, Escherichia coli genetics, Escherichia coli Infections epidemiology, Escherichia coli Infections microbiology

Published

2012

17. Finished bacterial genomes from shotgun sequence data.

Author

Ribeiro FJ, Przybylski D, Yin S, Sharpe T, Gnerre S, Abouelleil A, Berlin AM, Montmayeur A, Shea TP, Walker BJ, Young SK, Russ C, Nusbaum C, MacCallum I, and Jaffe DB

Subjects

Algorithms, Bacteria genetics, Genome, Bacterial, Genomic Library, Sequence Analysis, DNA methods

Abstract

Exceptionally accurate genome reference sequences have proven to be of great value to microbial researchers. Thus, to date, about 1800 bacterial genome assemblies have been "finished" at great expense with the aid of manual laboratory and computational processes that typically iterate over a period of months or even years. By applying a new laboratory design and new assembly algorithm to 16 samples, we demonstrate that assemblies exceeding finished quality can be obtained from whole-genome shotgun data and automated computation. Cost and time requirements are thus dramatically reduced.

Published

2012

18. Paired-end sequencing of Fosmid libraries by Illumina.

Author

Williams LJ, Tabbaa DG, Li N, Berlin AM, Shea TP, Maccallum I, Lawrence MS, Drier Y, Getz G, Young SK, Jaffe DB, Nusbaum C, and Gnirke A

Subjects

Animals, Gene Rearrangement, Mice, Mice, Inbred C57BL, Escherichia coli genetics, Genetic Vectors genetics, Genome, Bacterial, Genome, Fungal, Genomic Library, Schizosaccharomyces genetics, Sequence Analysis, DNA methods

Abstract

Eliminating the bacterial cloning step has been a major factor in the vastly improved efficiency of massively parallel sequencing approaches. However, this also has made it a technical challenge to produce the modern equivalent of the Fosmid- or BAC-end sequences that were crucial for assembling and analyzing complex genomes during the Sanger-based sequencing era. To close this technology gap, we developed Fosill, a method for converting Fosmids to Illumina-compatible jumping libraries. We constructed Fosmid libraries in vectors with Illumina primer sequences and specific nicking sites flanking the cloning site. Our family of pFosill vectors allows multiplex Fosmid cloning of end-tagged genomic fragments without physical size selection and is compatible with standard and multiplex paired-end Illumina sequencing. To excise the bulk of each cloned insert, we introduced two nicks in the vector, translated them into the inserts, and cleaved them. Recircularization of the vector via coligation of insert termini followed by inverse PCR generates a jumping library for paired-end sequencing with 101-base reads. The yield of unique Fosmid-sized jumps is sufficiently high, and the background of short, incorrectly spaced and chimeric artifacts sufficiently low, to enable applications such as mapping of structural variation and scaffolding of de novo assemblies. We demonstrate the power of Fosill to map genome rearrangements in a cancer cell line and identified three fusion genes that were corroborated by RNA-seq data. Our Fosill-powered assembly of the mouse genome has an N50 scaffold length of 17.0 Mb, rivaling the connectivity (16.9 Mb) of the Sanger-sequencing based draft assembly.

Published

2012

19. Whole genome deep sequencing of HIV-1 reveals the impact of early minor variants upon immune recognition during acute infection.

Author

Henn MR, Boutwell CL, Charlebois P, Lennon NJ, Power KA, Macalalad AR, Berlin AM, Malboeuf CM, Ryan EM, Gnerre S, Zody MC, Erlich RL, Green LM, Berical A, Wang Y, Casali M, Streeck H, Bloom AK, Dudek T, Tully D, Newman R, Axten KL, Gladden AD, Battis L, Kemper M, Zeng Q, Shea TP, Gujja S, Zedlack C, Gasser O, Brander C, Hess C, Günthard HF, Brumme ZL, Brumme CJ, Bazner S, Rychert J, Tinsley JP, Mayer KH, Rosenberg E, Pereyra F, Levin JZ, Young SK, Jessen H, Altfeld M, Birren BW, Walker BD, and Allen TM

Subjects

CD8-Positive T-Lymphocytes immunology, Genetic Variation, Genomic Structural Variation, HIV Infections immunology, HIV Infections prevention & control, HIV-1 immunology, HIV-1 pathogenicity, Humans, Immune Evasion genetics, Oligonucleotide Array Sequence Analysis, RNA, Viral analysis, Sequence Analysis, RNA, Viral Vaccines immunology, Genome, Viral genetics, Genome-Wide Association Study, HIV Infections virology, HIV-1 genetics, Immune Evasion immunology

Abstract

Deep sequencing technologies have the potential to transform the study of highly variable viral pathogens by providing a rapid and cost-effective approach to sensitively characterize rapidly evolving viral quasispecies. Here, we report on a high-throughput whole HIV-1 genome deep sequencing platform that combines 454 pyrosequencing with novel assembly and variant detection algorithms. In one subject we combined these genetic data with detailed immunological analyses to comprehensively evaluate viral evolution and immune escape during the acute phase of HIV-1 infection. The majority of early, low frequency mutations represented viral adaptation to host CD8+ T cell responses, evidence of strong immune selection pressure occurring during the early decline from peak viremia. CD8+ T cell responses capable of recognizing these low frequency escape variants coincided with the selection and evolution of more effective secondary HLA-anchor escape mutations. Frequent, and in some cases rapid, reversion of transmitted mutations was also observed across the viral genome. When located within restricted CD8 epitopes these low frequency reverting mutations were sufficient to prime de novo responses to these epitopes, again illustrating the capacity of the immune response to recognize and respond to low frequency variants. More importantly, rapid viral escape from the most immunodominant CD8+ T cell responses coincided with plateauing of the initial viral load decline in this subject, suggestive of a potential link between maintenance of effective, dominant CD8 responses and the degree of early viremia reduction. We conclude that the early control of HIV-1 replication by immunodominant CD8+ T cell responses may be substantially influenced by rapid, low frequency viral adaptations not detected by conventional sequencing approaches, which warrants further investigation. These data support the critical need for vaccine-induced CD8+ T cell responses to target more highly constrained regions of the virus in order to ensure the maintenance of immunodominant CD8 responses and the sustained decline of early viremia.

Published

2012

20. High-quality draft assemblies of mammalian genomes from massively parallel sequence data.

Author

Gnerre S, Maccallum I, Przybylski D, Ribeiro FJ, Burton JN, Walker BJ, Sharpe T, Hall G, Shea TP, Sykes S, Berlin AM, Aird D, Costello M, Daza R, Williams L, Nicol R, Gnirke A, Nusbaum C, Lander ES, and Jaffe DB

Subjects

Animals, Genome genetics, Humans, Internet, Mice, Reproducibility of Results, Algorithms, Genomics methods, Sequence Analysis, DNA methods, Software

Abstract

Massively parallel DNA sequencing technologies are revolutionizing genomics by making it possible to generate billions of relatively short (~100-base) sequence reads at very low cost. Whereas such data can be readily used for a wide range of biomedical applications, it has proven difficult to use them to generate high-quality de novo genome assemblies of large, repeat-rich vertebrate genomes. To date, the genome assemblies generated from such data have fallen far short of those obtained with the older (but much more expensive) capillary-based sequencing approach. Here, we report the development of an algorithm for genome assembly, ALLPATHS-LG, and its application to massively parallel DNA sequence data from the human and mouse genomes, generated on the Illumina platform. The resulting draft genome assemblies have good accuracy, short-range contiguity, long-range connectivity, and coverage of the genome. In particular, the base accuracy is high (≥99.95%) and the scaffold sizes (N50 size = 11.5 Mb for human and 7.2 Mb for mouse) approach those obtained with capillary-based sequencing. The combination of improved sequencing technology and improved computational methods should now make it possible to increase dramatically the de novo sequencing of large genomes. The ALLPATHS-LG program is available at http://www.broadinstitute.org/science/programs/genome-biology/crd.

Published

2011

21. ALLPATHS 2: small genomes assembled accurately and with high continuity from short paired reads.

Author

Maccallum I, Przybylski D, Gnerre S, Burton J, Shlyakhter I, Gnirke A, Malek J, McKernan K, Ranade S, Shea TP, Williams L, Young S, Nusbaum C, and Jaffe DB

Subjects

Base Pairing genetics, Reproducibility of Results, Bacteria genetics, Fungi genetics, Genome genetics, Genomics methods, Software

Abstract

We demonstrate that genome sequences approaching finished quality can be generated from short paired reads. Using 36 base (fragment) and 26 base (jumping) reads from five microbial genomes of varied GC composition and sizes up to 40 Mb, ALLPATHS2 generated assemblies with long, accurate contigs and scaffolds. Velvet and EULER-SR were less accurate. For example, for Escherichia coli, the fraction of 10-kb stretches that were perfect was 99.8% (ALLPATHS2), 68.7% (Velvet), and 42.1% (EULER-SR).

Published

2009

22. Nucleotide sequence based characterizations of two cryptic plasmids from the marine bacterium Ruegeria isolate PR1b.

Author

Zhong Z, Caspi R, Helinski D, Knauf V, Sykes S, O'Byrne C, Shea TP, Wilkinson JE, DeLoughery C, and Toukdarian A

Subjects

ATP-Binding Cassette Transporters metabolism, DNA metabolism, DNA Replication, DNA, Bacterial, Erwinia metabolism, Polysaccharides metabolism, Recombination, Genetic, Replication Origin, Replicon, Rhodobacter sphaeroides metabolism, Plasmids metabolism, Rhodobacteraceae genetics

Abstract

Two plasmids, 76 and 148 kb in size, isolated from Ruegeria strain PR1b were entirely sequenced. These are the first plasmids to be characterized from this genus of marine bacteria. Sequence analysis revealed a biased distribution of function among the putative proteins encoded on the two plasmids. The smaller plasmid, designated pSD20, encodes a large number of putative proteins involved in polysaccharide biosynthesis and export. The larger plasmid, designated pSD25, primarily encodes putative proteins involved in the transport of small molecules and in DNA mobilization. Sequence analysis revealed uncommon potential replication systems on both plasmids. pSD25, the first repABC-type replicon isolated from the marine environment, actually contains two repABC-type replicons. pSD20 contains a complex replication region, including a replication origin and initiation protein similar to iteron-containing plasmids (such as pSW500 from the plant pathogen Erwinia stewartii) linked to putative RepA and RepB stabilization proteins of a repABC-type replicon and is highly homologous to a plasmid from the phototrophic bacterium Rhodobacter sphaeroides. Given the nature of the putative proteins encoded by both plasmids it is possible that these plasmids enhance the metabolic and physiological flexibility of the host bacterium, and thus its adaptation to the marine sediment environment.

Published

2003

23. The complete genome sequence of Chlorobium tepidum TLS, a photosynthetic, anaerobic, green-sulfur bacterium.

Author

Eisen JA, Nelson KE, Paulsen IT, Heidelberg JF, Wu M, Dodson RJ, Deboy R, Gwinn ML, Nelson WC, Haft DH, Hickey EK, Peterson JD, Durkin AS, Kolonay JL, Yang F, Holt I, Umayam LA, Mason T, Brenner M, Shea TP, Parksey D, Nierman WC, Feldblyum TV, Hansen CL, Craven MB, Radune D, Vamathevan J, Khouri H, White O, Gruber TM, Ketchum KA, Venter JC, Tettelin H, Bryant DA, and Fraser CM

Subjects

Carbon Dioxide metabolism, Chromosomes, Bacterial genetics, Citric Acid Cycle, DNA Repair, Electron Transport, Gene Duplication, Models, Biological, Molecular Sequence Data, Nitrogen metabolism, Oxidative Stress, Photosynthesis, Phylogeny, Protein Biosynthesis, Pyrroles metabolism, Sulfur metabolism, Terpenes metabolism, Tetrapyrroles, Transcription, Genetic, Chlorobi genetics, Chlorobi metabolism, Genome, Bacterial

Abstract

The complete genome of the green-sulfur eubacterium Chlorobium tepidum TLS was determined to be a single circular chromosome of 2,154,946 bp. This represents the first genome sequence from the phylum Chlorobia, whose members perform anoxygenic photosynthesis by the reductive tricarboxylic acid cycle. Genome comparisons have identified genes in C. tepidum that are highly conserved among photosynthetic species. Many of these have no assigned function and may play novel roles in photosynthesis or photobiology. Phylogenomic analysis reveals likely duplications of genes involved in biosynthetic pathways for photosynthesis and the metabolism of sulfur and nitrogen as well as strong similarities between metabolic processes in C. tepidum and many Archaeal species.

Published

2002

24. Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana.

Author

Salanoubat M, Lemcke K, Rieger M, Ansorge W, Unseld M, Fartmann B, Valle G, Blöcker H, Perez-Alonso M, Obermaier B, Delseny M, Boutry M, Grivell LA, Mache R, Puigdomènech P, De Simone V, Choisne N, Artiguenave F, Robert C, Brottier P, Wincker P, Cattolico L, Weissenbach J, Saurin W, Quétier F, Schäfer M, Müller-Auer S, Gabel C, Fuchs M, Benes V, Wurmbach E, Drzonek H, Erfle H, Jordan N, Bangert S, Wiedelmann R, Kranz H, Voss H, Holland R, Brandt P, Nyakatura G, Vezzi A, D'Angelo M, Pallavicini A, Toppo S, Simionati B, Conrad A, Hornischer K, Kauer G, Löhnert TH, Nordsiek G, Reichelt J, Scharfe M, Schön O, Bargues M, Terol J, Climent J, Navarro P, Collado C, Perez-Perez A, Ottenwälder B, Duchemin D, Cooke R, Laudie M, Berger-Llauro C, Purnelle B, Masuy D, de Haan M, Maarse AC, Alcaraz JP, Cottet A, Casacuberta E, Monfort A, Argiriou A, flores M, Liguori R, Vitale D, Mannhaupt G, Haase D, Schoof H, Rudd S, Zaccaria P, Mewes HW, Mayer KF, Kaul S, Town CD, Koo HL, Tallon LJ, Jenkins J, Rooney T, Rizzo M, Walts A, Utterback T, Fujii CY, Shea TP, Creasy TH, Haas B, Maiti R, Wu D, Peterson J, Van Aken S, Pai G, Militscher J, Sellers P, Gill JE, Feldblyum TV, Preuss D, Lin X, Nierman WC, Salzberg SL, White O, Venter JC, Fraser CM, Kaneko T, Nakamura Y, Sato S, Kato T, Asamizu E, Sasamoto S, Kimura T, Idesawa K, Kawashima K, Kishida Y, Kiyokawa C, Kohara M, Matsumoto M, Matsuno A, Muraki A, Nakayama S, Nakazaki N, Shinpo S, Takeuchi C, Wada T, Watanabe A, Yamada M, Yasuda M, and Tabata S

Subjects

Chromosome Mapping, DNA, Plant, Gene Duplication, Humans, Plant Proteins genetics, Sequence Analysis, DNA, Arabidopsis genetics, Genome, Plant

Abstract

Arabidopsis thaliana is an important model system for plant biologists. In 1996 an international collaboration (the Arabidopsis Genome Initiative) was formed to sequence the whole genome of Arabidopsis and in 1999 the sequence of the first two chromosomes was reported. The sequence of the last three chromosomes and an analysis of the whole genome are reported in this issue. Here we present the sequence of chromosome 3, organized into four sequence segments (contigs). The two largest (13.5 and 9.2 Mb) correspond to the top (long) and the bottom (short) arms of chromosome 3, and the two small contigs are located in the genetically defined centromere. This chromosome encodes 5,220 of the roughly 25,500 predicted protein-coding genes in the genome. About 20% of the predicted proteins have significant homology to proteins in eukaryotic genomes for which the complete sequence is available, pointing to important conserved cellular functions among eukaryotes.

Published

2000

25. Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.

Author

Lin X, Kaul S, Rounsley S, Shea TP, Benito MI, Town CD, Fujii CY, Mason T, Bowman CL, Barnstead M, Feldblyum TV, Buell CR, Ketchum KA, Lee J, Ronning CM, Koo HL, Moffat KS, Cronin LA, Shen M, Pai G, Van Aken S, Umayam L, Tallon LJ, Gill JE, Adams MD, Carrera AJ, Creasy TH, Goodman HM, Somerville CR, Copenhaver GP, Preuss D, Nierman WC, White O, Eisen JA, Salzberg SL, Fraser CM, and Venter JC

Subjects

Cell Nucleus genetics, Centromere, Evolution, Molecular, Gene Duplication, Mitochondria genetics, Molecular Sequence Data, Plant Proteins genetics, Plant Proteins physiology, Sequence Analysis, DNA, Arabidopsis genetics, Chromosome Mapping, DNA, Plant, Genes, Plant physiology

Abstract

Arabidopsis thaliana (Arabidopsis) is unique among plant model organisms in having a small genome (130-140 Mb), excellent physical and genetic maps, and little repetitive DNA. Here we report the sequence of chromosome 2 from the Columbia ecotype in two gap-free assemblies (contigs) of 3.6 and 16 megabases (Mb). The latter represents the longest published stretch of uninterrupted DNA sequence assembled from any organism to date. Chromosome 2 represents 15% of the genome and encodes 4,037 genes, 49% of which have no predicted function. Roughly 250 tandem gene duplications were found in addition to large-scale duplications of about 0.5 and 4.5 Mb between chromosomes 2 and 1 and between chromosomes 2 and 4, respectively. Sequencing of nearly 2 Mb within the genetically defined centromere revealed a low density of recognizable genes, and a high density and diverse range of vestigial and presumably inactive mobile elements. More unexpected is what appears to be a recent insertion of a continuous stretch of 75% of the mitochondrial genome into chromosome 2.

Published

1999

26. Community-based peer instructors teach risk prevention to homeless veterans.

Author

Lewis EC, Shea TP, and St Lawrence JS

Subjects

Data Collection, Female, Health Education statistics & numerical data, Ill-Housed Persons statistics & numerical data, Humans, Male, Program Development, Risk Factors, Texas, Veterans statistics & numerical data, Acquired Immunodeficiency Syndrome prevention & control, Health Education organization & administration, Health Knowledge, Attitudes, Practice, Ill-Housed Persons education, Hospitals, Veterans, Veterans education

Published

1994

27. The beginning development of a model for joint research between a hospital social work department and a school of social work.

Author

Pruet RA, Shea TP, Zimmerman J, and Parish G

Subjects

Humans, Models, Theoretical, Publishing, Interinstitutional Relations, Research, Schools organization & administration, Social Work education, Social Work Department, Hospital organization & administration

Abstract

Efforts of agencies and schools of social work to encourage goals of research and professional writing among their staff and faculty have brought uneven results. A medical center and a graduate school of social work are in the process of implementing a joint research model which encourages practice based research and publication. This paper describes the beginning structures of the model and the questions addressed in the formative process.

Published

1991

28. Neurilemmoma of the lateral plantar nerve: a case report.

Author

Coulter KR, Gerbert J, and Shea TP

Subjects

Foot surgery, Humans, Male, Middle Aged, Foot innervation, Neurilemmoma surgery, Peripheral Nervous System Neoplasms surgery

Published

1978