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1. Patterns of within-host spread of Chlamydia trachomatis between vagina, endocervix and rectum revealed by comparative genomic analysis

Author

Joseph, Sandeep J, Bommana, Sankhya, Ziklo, Noa, Kama, Mike, Dean, Deborah, and Read, Timothy D

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Clinical Sciences, Medical Microbiology, Infectious Diseases, Human Genome, Biotechnology, Sexually Transmitted Infections, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Chlamydia trachomatis, single nucleotide polymorphisms, single variable polymorphisms, sexually transmitted diseases, chlamydiae, Environmental Science and Management, Soil Sciences, Microbiology, Medical microbiology
Abstract

IntroductionChlamydia trachomatis, a gram-negative obligate intracellular bacterium, commonly causes sexually transmitted infections (STIs). Little is known about C. trachomatis transmission within the host, which is important for understanding disease epidemiology and progression.MethodsWe used RNA-bait enrichment and whole-genome sequencing to compare rectal, vaginal and endocervical samples collected at the same time from 26 study participants who attended Fijian Ministry of Health and Medical Services clinics and tested positive for C. trachomatis at each anatomic site.ResultsThe 78 C. trachomatis genomes from participants resolved into two major clades of the C. trachomatis phylogeny (the "prevalent urogenital and anorectal" clade and "non-prevalent urogenital and anorectal" clade). For 21 participants, genome sequences were almost identical in each anatomic site. For the other five participants, two distinct C. trachomatis strains were present in different sites; in two cases, the vaginal sample was a mixture of strains.DiscussionThe absence of large numbers of fixed SNPs between C. trachomatis genomes within many of the participants could indicate recent acquisition of infection prior to the clinic visit without sufficient time to accumulate significant genetic variation in different body sites. This model suggests that many C. trachomatis infections may be resolved relatively quickly in the Fijian population, possibly reflecting common prescription or over-the-counter antibiotics usage.

Published
2023

2. Whole-Genome Enrichment and Sequencing of Chlamydia trachomatis Directly from Patient Clinical Vaginal and Rectal Swabs

Author

Bowden, Katherine E, Joseph, Sandeep J, Cartee, John C, Ziklo, Noa, Danavall, Damien, Raphael, Brian H, Read, Timothy D, and Dean, Deborah

Subjects
Clinical Research, Digestive Diseases, Urologic Diseases, Human Genome, Infectious Diseases, Contraception/Reproduction, Genetics, Biotechnology, Sexually Transmitted Infections, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Adolescent, Adult, Chlamydia Infections, Chlamydia trachomatis, Female, Genome, Bacterial, Humans, Phylogeny, Rectum, Vagina, Whole Genome Sequencing, Young Adult, SNPs, recombination, whole-genome enrichment, Immunology, Microbiology
Abstract

Chlamydia trachomatis, an obligately intracellular bacterium, is the most prevalent cause of bacterial sexually transmitted infections (STIs) worldwide. Numbers of U.S. infections of the urogenital tract and rectum have increased annually. Because C. trachomatis is not easily cultured, comparative genomic studies are limited, restricting our understanding of strain diversity and emergence among populations globally. While Agilent SureSelectXT target enrichment RNA bait libraries have been developed for whole-genome enrichment and sequencing of C. trachomatis directly from clinical urine, vaginal, conjunctival, and rectal samples, public access to these libraries is not available. We therefore designed an RNA bait library (34,795 120-mer probes based on 85 genomes, versus 33,619 probes using 74 genomes in a previous one) to augment organism sequencing from clinical samples that can be shared with the scientific community, enabling comparison studies. We describe the library and limit of detection for genome copy input, and we present results of 100% efficiency and high-resolution determination of recombination and identical genomes within vaginal-rectal specimen pairs in women. This workflow provides a robust approach for discerning genomic diversity and advancing our understanding of the molecular epidemiology of contemporary C. trachomatis STIs across sample types, geographic populations, sexual networks, and outbreaks associated with proctitis/proctocolitis among women and men who have sex with men.IMPORTANCEChlamydia trachomatis is an obligate intracellular bacterium that is not easily cultured, which limits our understanding of urogenital and rectal C. trachomatis transmission and impact on morbidity. To provide a publicly available workflow for whole-genome target enrichment and sequencing of C. trachomatis directly from clinical urine, vaginal, conjunctival, and rectal specimens, we developed and report on an RNA bait library to enrich the organism from clinical samples for sequencing. We demonstrate an increased efficiency in the percentage of reads mapping to C. trachomatis and identified recombinant and identical C. trachomatis genomes in paired vaginal-rectal samples from women. Our workflow provides a robust genomic epidemiologic approach to advance our understanding of C. trachomatis strains causing ocular, urogenital, and rectal infections and to explore geo-sexual networks, outbreaks of colorectal infections among women and men who have sex with men, and the role of these strains in morbidity.

Published
2021

3. Emergence and evolution of mosaic penA-60 and penA-237 alleles in a Neisseria gonorrhoeae core genogroup that was historically susceptible to extended spectrum cephalosporins.

Author

Thomas IV, Jesse C., Cartee, John C., Hebrank, Katherine, St. Cyr, Sancta B., Schlanger, Karen, Raphael, Brian H., Kersh, Ellen N., and Joseph, Sandeep J.

Subjects
HOMOLOGOUS recombination, NEISSERIA gonorrhoeae, MULTIDRUG resistance, MOLECULAR cloning, DRUG resistance in microorganisms, CEFTRIAXONE
Abstract

Introduction: Neisseria gonorrhoeae (Ng) has successively developed resistance to all previously recommended antimicrobial therapies, with ceftriaxone being the last option for monotherapy of gonorrhea. Global emergence and international spread of the FC428 clone derived mosaic penA-60 allele, associated with highlevel ceftriaxone minimum inhibitory concentrations (MICs) in non FC428 clone Ng lineages, has become an increasing concern. The penA60 allele carrying Ng was first identified in the U.S. in Las Vegas, Nevada (2019; GCWGS-102723), with a multi-locus sequence type (MLST)-1901 strain, in a non FC428 clone Ng lineage, which is associated with a historically ceftriaxone susceptible core genogroup. Later in 2022, an allele genetically similar to penA-60, mosaic penA-237, was identified in the UK (H22-722) and France (F92) with high-level ceftriaxone MICs and both belonged to MLST-1901. Methods: In this study, we assessed phylogenomic relatedness and antimicrobial resistance (AMR) determinant profiles of these three isolates with high-level ceftriaxone MICs among a global collection of 2,104 genomes belonging to the MLST-1901 core genome cluster group 31, which includes strains separated by a locus threshold of 200 or fewer differences (Ng_cgc_200). Recombination events in and around the penA coding region were catalogued and potential sources of inter species recombinant DNA were also inferred. Results: The global population structure of MLST-1901 core genogroup falls into 4 major lineages. Isolates GCWGS-10723, F92, and H22-722 clustered within Lineage 1, which was dominated by non-mosaic penA-5 alleles. These three isolates formed a clade within Lineage 1 that consisted of isolates from North America and southeast Asia. Neisseria subflava and Neisseria sicca were identified as likely progenitors of two independent recombination events that may have led to the generation of mosaic penA-60 and penA-237, within a possible non-mosaic penA-5 background. Discussions: Our study suggests that there are multiple evolutionary pathways that could generate concerning mosaic penA alleles via homologous recombination of historically susceptible Ng lineages with Neisseria commensals. Enhanced surveillance of gonococcal strains and Neisseria commensals is crucial for understanding of the evolution of AMR, particularly in less-studied regions (e.g., Asia), where high-level ceftriaxone MICs and multi-drug resistance are more prevalent. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Tet(C) Gene Transfer between Chlamydia suis Strains Occurs by Homologous Recombination after Co-infection: Implications for Spread of Tetracycline-Resistance among Chlamydiaceae

Author

Marti, Hanna, Kim, Hoyon, Joseph, Sandeep J, Dojiri, Stacey, Read, Timothy D, and Dean, Deborah

Subjects
Microbiology, Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Infectious Diseases, Biotechnology, Infection, Chlamydia, tetracycline resistance, transposon, homologous recombination, genomic island, Chlamydia suis, Chlamydia trachomatis, Environmental Science and Management, Soil Sciences, Medical microbiology
Abstract

Chlamydia suis is a swine pathogen that has also recently been found to cause zoonotic infections of the human eye, pharynx, and gastrointestinal tract. Many strains contain a tetracycline class C gene [tet(C)] cassette that confers tetracycline resistance. The cassette was likely originally acquired by horizontal gene transfer from a Gram-negative donor after the introduction of tetracycline into animal feed in the 1950s. Various research groups have described the capacity for different Chlamydia species to exchange DNA by homologous recombination. Since over 90% of C. suis strains are tetracycline resistant, they represent a potential source for antibiotic-resistance spread within and between Chlamydiaceae species. Here, we examined the genetics of tet(C)-transfer among C. suis strains. Tetracycline-sensitive C. suis strain S45 was simultaneously or sequentially co-infected with tetracycline-resistant C. suis strains in McCoy cells. Potential recombinants were clonally purified by a harvest assay derived from the classic plaque assay. C. suis strain Rogers132, lacking transposases IS200 and IS605, was the most efficient donor, producing two unique recombinants detected in three of the 56 (5.4%) clones screened. Recombinants were found to have a minimal inhibitory concentration (MIC) of 8-16 μg/mL for tetracycline. Resistance remained stable over 10 passages as long as recombinants were initially grown in tetracycline at twice the MIC of S45 (0.032 μg/mL). Genomic analysis revealed that tet(C) had integrated into the S45 genome by homologous recombination at two unique sites depending on the recombinant: a 55 kb exchange between nrqF and pckG, and a 175 kb exchange between kdsA and cysQ. Neither site was associated with inverted repeats or motifs associated with recombination hotspots. Our findings show that cassette transfer into S45 has low frequency, does not require IS200/IS605 transposases, is stable if initially grown in tetracycline, and results in multiple genomic configurations. We provide a model for stable cassette transfer to better understand the capability for cassette acquisition by Chlamydiaceae species that infect humans, a matter of public health importance.

Published
2017

5. Rapid detection and strain typing of Chlamydia trachomatis using a highly multiplexed microfluidic PCR assay

Author

Turingan, Rosemary S, Kaplun, Ludmila, Krautz-Peterson, Greice, Norsworthy, Sarah, Zolotova, Anna, Joseph, Sandeep J, Read, Timothy D, Dean, Deborah, Tan, Eugene, and Selden, Richard F

Subjects
Genetics, Infectious Diseases, Biotechnology, Urologic Diseases, Sexually Transmitted Infections, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Infection, Good Health and Well Being, Chlamydia trachomatis, Genes, Bacterial, Limit of Detection, Microfluidics, Polymerase Chain Reaction, General Science & Technology
Abstract

Nucleic acid amplification tests (NAATs) are recommended by the CDC for detection of Chlamydia trachomatis (Ct) urogenital infections. Current commercial NAATs require technical expertise and sophisticated laboratory infrastructure, are time-consuming and expensive, and do not differentiate the lymphogranuloma venereum (LGV) strains that require a longer duration of treatment than non-LGV strains. The multiplexed microfluidic PCR-based assay presented in this work simultaneously interrogates 13 loci to detect Ct and identify LGV and non-LGV strain-types. Based on amplified fragment length polymorphisms, the assay differentiates LGV, ocular, urogenital, and proctocolitis clades, and also serovars L1, L2, and L3 within the LGV group. The assay was evaluated in a blinded fashion using 95 clinical swabs, with 76 previously reported as urogenital Ct-positive samples and typed by ompA genotyping and/or Multi-Locus Sequence Typing. Results of the 13-plex assay showed that 51 samples fell within urogenital clade 2 or 4, 24 samples showed both clade 2 and 4 signatures, indicating possible mixed infection, gene rearrangement, or inter-clade recombination, and one sample was a noninvasive trachoma biovar (either a clade 3 or 4). The remaining 19 blinded samples were correctly identified as LGV clade 1 (3), ocular clade 3 (4), or as negatives (12). To date, no NAAT assay can provide a point-of-care applicable turnaround time for Ct detection while identifying clinically significant Ct strain types to inform appropriate treatment. Coupled with rapid DNA processing of clinical swabs (approximately 60 minutes from swab-in to result-out), the assay has significant potential as a rapid POC diagnostic for Ct infections.

Published
2017

6. Patterns of within-host spread of Chlamydia trachomatis between vagina, endocervix and rectum revealed by comparative genomic analysis.

Author

Joseph, Sandeep J., Bommana, Sankhya, Ziklo, Noa, Kama, Mike, Dean, Deborah, and Read, Timothy D.

Subjects
CHLAMYDIA trachomatis, GENOMICS, SEXUALLY transmitted diseases, WHOLE genome sequencing, GENETIC variation, RECTUM
Abstract

Introduction: Chlamydia trachomatis, a gram-negative obligate intracellular bacterium, commonly causes sexually transmitted infections (STIs). Little is known about C. trachomatis transmission within the host, which is important for understanding disease epidemiology and progression. Methods: We used RNA-bait enrichment and whole-genome sequencing to compare rectal, vaginal and endocervical samples collected at the same time from 26 study participants who attended Fijian Ministry of Health and Medical Services clinics and tested positive for C. trachomatis at each anatomic site. Results: The 78 C. trachomatis genomes from participants resolved into two major clades of the C. trachomatis phylogeny (the "prevalent urogenital and anorectal" clade and "non-prevalent urogenital and anorectal" clade). For 21 participants, genome sequences were almost identical in each anatomic site. For the other five participants, two distinct C. trachomatis strains were present in different sites; in two cases, the vaginal sample was a mixture of strains. Discussion: The absence of large numbers of fixed SNPs between C. trachomatis genomes within many of the participants could indicate recent acquisition of infection prior to the clinic visit without sufficient time to accumulate significant genetic variation in different body sites. This model suggests that many C. trachomatis infections may be resolved relatively quickly in the Fijian population, possibly reflecting common prescription or over-the-counter antibiotics usage. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Novel strain of multidrug non-susceptible Neisseria gonorrhoeae in the USA

Author

Reimche, Jennifer L, primary, Pham, Cau D, additional, Joseph, Sandeep J, additional, Hutton, Shelby, additional, Cartee, John C, additional, Ruan, Yuheng, additional, Breaux, Mandy, additional, Ivanof, Caryn, additional, Joshi, Akita, additional, DeMartino, Mary, additional, Kirby, James E, additional, Barbee, Lindley A, additional, Kersh, Ellen N, additional, Roosevelt, Kathleen A, additional, and Hsu, Katherine K, additional

Published
2024
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8. Dynamics of genome change among Legionella species.

Author

Joseph, Sandeep J, Cox, Daniel, Wolff, Bernard, Morrison, Shatavia S, Kozak-Muiznieks, Natalia A, Frace, Michael, Didelot, Xavier, Castillo-Ramirez, Santiago, Winchell, Jonas, Read, Timothy D, and Dean, Deborah

Subjects
Legionella, DNA, Bacterial, Genomics, Phylogeny, Species Specificity, Recombination, Genetic, Gene Transfer, Horizontal, Base Sequence, Genes, Bacterial, Genome, Bacterial, Selection, Genetic, Bacterial Secretion Systems, CRISPR-Cas Systems
Abstract

Legionella species inhabit freshwater and soil ecosystems where they parasitize protozoa. L. pneumonphila (LP) serogroup-1 (Lp1) is the major cause of Legionnaires' Disease (LD), a life-threatening pulmonary infection that can spread systemically. The increased global frequency of LD caused by Lp and non-Lp species underscores the need to expand our knowledge of evolutionary forces underlying disease pathogenesis. Whole genome analyses of 43 strains, including all known Lp serogroups 1-17 and 17 emergent LD-causing Legionella species (of which 33 were sequenced in this study) in addition to 10 publicly available genomes, resolved the strains into four phylogenetic clades along host virulence demarcations. Clade-specific genes were distinct for genetic exchange and signal-transduction, indicating adaptation to specific cellular and/or environmental niches. CRISPR spacer comparisons hinted at larger pools of accessory DNA sequences in Lp than predicted by the pan-genome analyses. While recombination within Lp was frequent and has been reported previously, population structure analysis identified surprisingly few DNA admixture events between species. In summary, diverse Legionella LD-causing species share a conserved core-genome, are genetically isolated from each other, and selectively acquire genes with potential for enhanced virulence.

Published
2016

9. Tetracycline Selective Pressure and Homologous Recombination Shape the Evolution of Chlamydia suis: A Recently Identified Zoonotic Pathogen.

Author

Joseph, Sandeep J, Marti, Hanna, Didelot, Xavier, Read, Timothy D, and Dean, Deborah

Subjects
Chlamydia, Betaproteobacteria, Tetracycline, Anti-Bacterial Agents, Evolution, Molecular, Tetracycline Resistance, Gene Transfer, Horizontal, Genes, Bacterial, Selection, Genetic, Homologous Recombination, Chlamydia suis, comparative genomics, genomic diversification, tet(C)-containing cassette, tetracycline selective pressure, Developmental Biology, Biochemistry and Cell Biology, Evolutionary Biology, Genetics
Abstract

Species closely related to the human pathogen Chlamydia trachomatis (Ct) have recently been found to cause zoonotic infections, posing a public health threat especially in the case of tetracycline resistant Chlamydia suis (Cs) strains. These strains acquired a tet(C)-containing cassette via horizontal gene transfer (HGT). Genomes of 11 Cs strains from various tissues were sequenced to reconstruct evolutionary pathway(s) for tet(C) HGT. Cs had the highest recombination rate of Chlamydia species studied to date. Admixture occurred among Cs strains and with Chlamydia muridarum but not with Ct Although in vitro tet(C) cassette exchange with Ct has been documented, in vivo evidence may require examining human samples from Ct and Cs co-infected sites. Molecular-clock dating indicated that ancestral clades of resistant Cs strains predated the 1947 discovery of tetracycline, which was subsequently used in animal feed. The cassette likely spread throughout Cs strains by homologous recombination after acquisition from an external source, and our analysis suggests Betaproteobacteria as the origin. Selective pressure from tetracycline may be responsible for recent bottlenecks in Cs populations. Since tetracycline is an important antibiotic for treating Ct, zoonotic infections at mutual sites of infection indicate the possibility for cassette transfer and major public health repercussions.

Published
2016

10. Chlamydiaceae Genomics Reveals Interspecies Admixture and the Recent Evolution of Chlamydia abortus Infecting Lower Mammalian Species and Humans

Author

Joseph, Sandeep J, Marti, Hanna, Didelot, Xavier, Castillo-Ramirez, Santiago, Read, Timothy D, and Dean, Deborah

Subjects
Microbiology, Biological Sciences, Genetics, Biotechnology, Prevention, Vaccine Related, Emerging Infectious Diseases, Infectious Diseases, Human Genome, Aetiology, 2.2 Factors relating to the physical environment, Infection, Animals, Bayes Theorem, Biological Evolution, Birds, Chlamydia, Chlamydophila psittaci, DNA, Bacterial, Female, Genome, Bacterial, Humans, Mammals, Models, Genetic, Phylogeny, Sequence Analysis, DNA, Chlamydiaceae, comparative genomics, homologous recombination, molecular clock, population structure, red-tailed hawk, Biochemistry and Cell Biology, Evolutionary Biology, Developmental Biology, Biochemistry and cell biology, Evolutionary biology
Abstract

Chlamydiaceae are obligate intracellular bacteria that cause a diversity of severe infections among humans and livestock on a global scale. Identification of new species since 1989 and emergence of zoonotic infections, including abortion in women, underscore the need for genome sequencing of multiple strains of each species to advance our knowledge of evolutionary dynamics across Chlamydiaceae. Here, we genome sequenced isolates from avian, lower mammalian and human hosts. Based on core gene phylogeny, five isolates previously classified as Chlamydia abortus were identified as members of Chlamydia psittaci and Chlamydia pecorum. Chlamydia abortus is the most recently emerged species and is a highly monomorphic group that lacks the conserved virulence-associated plasmid. Low-level recombination and evidence for adaptation to the placenta echo evolutionary processes seen in recently emerged, highly virulent niche-restricted pathogens, such as Bacillus anthracis. In contrast, gene flow occurred within C. psittaci and other Chlamydiaceae species. The C. psittaci strain RTH, isolated from a red-tailed hawk (Buteo jamaicensis), is an outlying strain with admixture of C. abortus, C. psittaci, and its own population markers. An average nucleotide identity of less than 94% compared with other Chlamydiaceae species suggests that RTH belongs to a new species intermediary between C. psittaci and C. abortus. Hawks, as scavengers and predators, have extensive opportunities to acquire multiple species in their intestinal tract. This could facilitate transformation and homologous recombination with the potential for new species emergence. Our findings indicate that incubator hosts such as birds-of-prey likely promote Chlamydiaceae evolution resulting in novel pathogenic lineages.

Published
2015

11. Population structure of Neisseria gonorrhoeae based on whole genome data and its relationship with antibiotic resistance

Author

Ezewudo, Matthew N, Joseph, Sandeep J, Castillo-Ramirez, Santiago, Dean, Deborah, del Rio, Carlos, Didelot, Xavier, Dillon, Jo-Anne, Selden, Richard F, Shafer, William M, Turingan, Rosemary S, Unemo, Magnus, and Read, Timothy D

Subjects
Microbiology, Biological Sciences, Genetics, Sexually Transmitted Infections, Infectious Diseases, Antimicrobial Resistance, Infection, Good Health and Well Being, Antimicrobial resistance, Population structure, Recombination, Whole genome sequence analysis, Genetic admixture, Medical and Health Sciences
Abstract

Neisseria gonorrhoeae is the causative agent of gonorrhea, a sexually transmitted infection (STI) of major importance. As a result of antibiotic resistance, there are now limited options for treating patients. We collected draft genome sequence data and associated metadata data on 76 N. gonorrhoeae strains from around the globe and searched for known determinants of antibiotics resistance within the strains. The population structure and evolutionary forces within the pathogen population were analyzed. Our results indicated a cosmopolitan gonoccocal population mainly made up of five subgroups. The estimated ratio of recombination to mutation (r/m = 2.2) from our data set indicates an appreciable level of recombination occurring in the population. Strains with resistance phenotypes to more recent antibiotics (azithromycin and cefixime) were mostly found in two of the five population subgroups.

Published
2015

12. Direct Amplification, Sequencing and Profiling of Chlamydia trachomatis Strains in Single and Mixed Infection Clinical Samples

Author

Joseph, Sandeep J, Li, Ben, Ghonasgi, Tanvi, Haase, Chad P, Qin, Zhaohui S, Dean, Deborah, and Read, Timothy D

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Microbiology, Clinical Sciences, Medical Microbiology, Sexually Transmitted Infections, Infectious Diseases, Biotechnology, Human Genome, Infection, Good Health and Well Being, Chlamydia Infections, Chlamydia trachomatis, Humans, Polymerase Chain Reaction, Sequence Analysis, DNA, General Science & Technology
Abstract

Sequencing bacterial genomes from DNA isolated directly from clinical samples offers the promise of rapid and precise acquisition of informative genetic information. In the case of Chlamydia trachomatis, direct sequencing is particularly desirable because it obviates the requirement for culture in mammalian cells, saving time, cost and the possibility of missing low abundance strains. In this proof of concept study, we developed methodology that would allow genome-scale direct sequencing, using a multiplexed microdroplet PCR enrichment technology to amplify a 100 kb region of the C. trachomatis genome with 500 1.1-1.3 kb overlapping amplicons (5-fold amplicon redundancy). We integrated comparative genomic data into a pipeline to preferentially select conserved sites for amplicon design. The 100 kb target region could be amplified from clinical samples, including remnants from diagnostics tests, originating from the cervix, urethra and urine, For rapid analysis of these data, we developed a framework for whole-genome based genotyping called binstrain. We used binstrain to estimate the proportion of SNPs originating from 14 C. trachomatis reference serotype genomes in each sample. Direct DNA sequencing methods such as the one described here may have an important role in understanding the biology of C. trachomatis mixed infections and the natural genetic variation of the species within clinically relevant ecological niches.

Published
2014

14. Outbreak of Neisseria meningitidis serogroup C outside the meningitis belt—Liberia, 2017: an epidemiological and laboratory investigation

Author

Konway, Youhn, Wiah, Samson Q, Doedeh, Vivian, Bao, Umaru, Senneh, George, Gorwor, Lawrence, Gonotee, Philemon, Paasewe, Thomas, Tamatai, George, Yarkeh, James, Smith, Samuel, Brima-Davis, Annette, Dauda, George, Monger, Thomas, Gornor-Pewu, Leleh W, Lombeh, Siafa, Wilson, Himiede W, Korvayan, Mark, Dovillie, Nathaniel, Jetoh, Ralph, Taweh, Fahn, Vera Walker, Yatta, Hardy, Patrick, Freeman, Maxwell, George, Geraldine, Kerwillain, Garrison, Toe, Sylvester, Ghartey, Emmanuel, Larway, Lawrence, Gweh, Dedesco, Allen, Denise, Friesen, Suzanne, Gwesa, Gulu, Kinkade, Carl, Reed, Mulbah, Chang, Arthur, George, Josiah, Schier, Joshua, Thomas, Jerry, Diaz, Maureen H, Jenkins, Laurel T, Mahon, Barbara E, Schmink, Susanna E, Joseph, Sandeep J, Waller, Jessica L, Whaley, Melissa J, Winchell, Jonas M, Arthur, Ray R, Fuller, Serena, Christian, Kira, Redd, John T, Yealue, Kwuakuan D M, II, Naiene, Jeremias, Asamoah Frimpong, Joseph, Amo-Addae, Maame, Stephen, Olayinka, Von Gottberg, Anne, Taha, Muhamed, Bozio, Catherine H, Vuong, Jeni, Dokubo, E Kainne, Fallah, Mosoka P, McNamara, Lucy A, Potts, Caelin C, Doedeh, John, Gbanya, Miatta, Retchless, Adam C, Patel, Jaymin C, Clark, Thomas A, Kohar, Henry, Nagbe, Thomas, Clement, Peter, Katawera, Victoria, Mahmoud, Nuha, Djingarey, Harouna M, Perrocheau, Anne, Naidoo, Dhamari, Stone, Mardia, George, Roseline N, Williams, Desmond, Gasasira, Alex, Nyenswah, Tolbert, Wang, Xin, and Fox, LeAnne M

Published
2018
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16. Comparative Analysis of Chlamydia psittaci Genomes Reveals the Recent Emergence of a Pathogenic Lineage with a Broad Host Range

Author

Read, Timothy D, Joseph, Sandeep J, Didelot, Xavier, Liang, Brooke, Patel, Lisa, and Dean, Deborah

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Genetics, Clinical Sciences, Medical Microbiology, Vaccine Related, Sexually Transmitted Infections, Biotechnology, Human Genome, Emerging Infectious Diseases, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Animals, Birds, Chlamydophila psittaci, DNA, Bacterial, Evolution, Molecular, Genome, Bacterial, Host Specificity, Humans, Mammals, Recombination, Genetic, Microbiology, Biochemistry and cell biology, Medical microbiology
Abstract

Chlamydia psittaci is an obligate intracellular bacterium. Interest in Chlamydia stems from its high degree of virulence as an intestinal and pulmonary pathogen across a broad range of animals, including humans. C. psittaci human pulmonary infections, referred to as psittacosis, can be life-threatening, which is why the organism was developed as a bioweapon in the 20th century and is listed as a CDC biothreat agent. One remarkable recent result from comparative genomics is the finding of frequent homologous recombination across the genome of the sexually transmitted and trachoma pathogen Chlamydia trachomatis. We sought to determine if similar evolutionary dynamics occurred in C. psittaci. We analyzed 20 C. psittaci genomes from diverse strains representing the nine known serotypes of the organism as well as infections in a range of birds and mammals, including humans. Genome annotation revealed a core genome in all strains of 911 genes. Our analyses showed that C. psittaci has a history of frequently switching hosts and undergoing recombination more often than C. trachomatis. Evolutionary history reconstructions showed genome-wide homologous recombination and evidence of whole-plasmid exchange. Tracking the origins of recombinant segments revealed that some strains have imported DNA from as-yet-unsampled or -unsequenced C. psittaci lineages or other Chlamydiaceae species. Three ancestral populations of C. psittaci were predicted, explaining the current population structure. Molecular clock analysis found that certain strains are part of a clonal epidemic expansion likely introduced into North America by South American bird traders, suggesting that psittacosis is a recently emerged disease originating in New World parrots.

Published
2013

21. Oral microbiome in HIV-associated periodontitis

Author

Noguera-Julian, Marc, Guillén, Yolanda, Peterson, Jessica, Reznik, David, Harris, Erica V., Joseph, Sandeep J., Rivera, Javier, Kannanganat, Sunil, Amara, Rama, Nguyen, Minh Ly, Mutembo, Simon, Paredes, Roger, Read, Timothy D., and Marconi, Vincent C.

Published
2017
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22. Selective Whole-Genome Amplification as a Tool to Enrich Specimens with Low Treponema pallidum Genomic DNA Copies for Whole-Genome Sequencing

Author

Thurlow, Charles M., primary, Joseph, Sandeep J., additional, Ganova-Raeva, Lilia, additional, Katz, Samantha S., additional, Pereira, Lara, additional, Chen, Cheng, additional, Debra, Alyssa, additional, Vilfort, Kendra, additional, Workowski, Kimberly, additional, Cohen, Stephanie E., additional, Reno, Hilary, additional, Sun, Yongcheng, additional, Burroughs, Mark, additional, Sheth, Mili, additional, Chi, Kai-Hua, additional, Danavall, Damien, additional, Philip, Susan S., additional, Cao, Weiping, additional, Kersh, Ellen N., additional, and Pillay, Allan, additional

Published
2022
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23. Phylogenomic Comparison of Neisseria gonorrhoeae Causing Disseminated Gonococcal Infections and Uncomplicated Gonorrhea in Georgia, United States

Author

Cartee, John C, primary, Joseph, Sandeep J, additional, Weston, Emily, additional, Pham, Cau D, additional, Thomas, Jesse C, additional, Schlanger, Karen, additional, St Cyr, Sancta B, additional, Farley, Monica M, additional, Moore, Ashley E, additional, Tunali, Amy K, additional, Cloud, Charletta, additional, and Raphael, Brian H, additional

Published
2022
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25. Genomic Insights on Variation Underlying Capsule Expression in Meningococcal Carriage Isolates From University Students, United States, 2015–2016

Author

Whaley, Melissa J., primary, Vuong, Jeni T., additional, Topaz, Nadav, additional, Chang, How-Yi, additional, Thomas, Jennifer Dolan, additional, Jenkins, Laurel T., additional, Hu, Fang, additional, Schmink, Susanna, additional, Steward-Clark, Evelene, additional, Mathis, Marsenia, additional, Rodriguez-Rivera, Lorraine D., additional, Retchless, Adam C., additional, Joseph, Sandeep J., additional, Chen, Alexander, additional, Acosta, Anna M., additional, McNamara, Lucy, additional, Soeters, Heidi M., additional, Mbaeyi, Sarah, additional, Marjuki, Henju, additional, and Wang, Xin, additional

Published
2022
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28. Selective whole genome amplification as a tool to enrich specimens with lowTreponema pallidumgenomic DNA copies for whole genome sequencing

Author

Thurlow, Charles M., primary, Joseph, Sandeep J., additional, Ganova-Raeva, Lilia, additional, Katz, Samantha S., additional, Pereira, Lara, additional, Chen, Cheng, additional, Debra, Alyssa, additional, Vilfort, Kendra, additional, Workowski, Kimberly, additional, Cohen, Stephanie E., additional, Reno, Hilary, additional, Sun, Yongcheng, additional, Burroughs, Mark, additional, Sheth, Mili, additional, Chi, Kai-Hua, additional, Danavall, Damien, additional, Philip, Susan S., additional, Cao, Weiping, additional, Kersh, Ellen N., additional, and Pillay, Allan, additional

Published
2021
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34. Insights on Population Structure and Within-Host Genetic Changes among Meningococcal Carriage Isolates from U.S. Universities

Author

Joseph, Sandeep J., primary, Topaz, Nadav, additional, Chang, How-Yi, additional, Whaley, Melissa J., additional, Vuong, Jeni T., additional, Chen, Alexander, additional, Hu, Fang, additional, Schmink, Susanna E., additional, Jenkins, Laurel T., additional, Rodriguez-Rivera, Lorraine D., additional, Thomas, Jennifer D., additional, Acosta, Anna M., additional, McNamara, Lucy, additional, Soeters, Heidi M., additional, Mbaeyi, Sarah, additional, and Wang, Xin, additional

Published
2020
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35. Global Emergence and Dissemination of Neisseria gonorrhoeae ST-9363 Isolates with Reduced Susceptibility to Azithromycin.

Author

Joseph, Sandeep J, Thomas, Jesse C, Schmerer, Matthew W, Cartee, John C, Cyr, Sancta St, Schlanger, Karen, Kersh, Ellen N, Raphael, Brian H, Gernert, Kim M, and Group, Antimicrobial Resistant Neisseria gonorrhoeae Working

Subjects
*NEISSERIA gonorrhoeae, *AZITHROMYCIN
Abstract

Neisseria gonorrhoeae multilocus sequence type (ST) 9363 core-genogroup isolates have been associated with reduced azithromycin susceptibility (AZMrs) and show evidence of clonal expansion in the United States. Here, we analyze a global collection of ST-9363 core-genogroup genomes to shed light on the emergence and dissemination of this strain. The global population structure of ST-9363 core-genogroup falls into three lineages: Basal, European, and North American; with 32 clades within all lineages. Although, ST-9363 core-genogroup is inferred to have originated from Asia in the mid-19th century; we estimate the three modern lineages emerged from Europe in the late 1970s to early 1980s. The European lineage appears to have emerged and expanded from around 1986 to 1998, spreading into North America and Oceania in the mid-2000s with multiple introductions, along with multiple secondary reintroductions into Europe. Our results suggest two separate acquisition events of mosaic mtrR and mtrR promoter alleles: first during 2009–2011 and again during the 2012–2013 time, facilitating the clonal expansion of this core-genogroup with AZMrs in the United States. By tracking phylodynamic evolutionary trajectories of clades that share distinct demography as well as population-based genomic statistics, we demonstrate how recombination and selective pressures in the mtrCDE efflux operon granted a fitness advantage to establish ST-9363 as a successful gonococcal lineage in the United States and elsewhere. Although it is difficult to pinpoint the exact timing and emergence of this young core-genogroup, it remains critically important to continue monitoring it, as it could acquire additional resistance markers. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Interplay of recombination and selection in the genomes of Chlamydia trachomatis

Author

Dean Deborah, Gandhi Khanjan, Didelot Xavier, Joseph Sandeep J, and Read Timothy D

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Background Chlamydia trachomatis is an obligate intracellular bacterial parasite, which causes several severe and debilitating diseases in humans. This study uses comparative genomic analyses of 12 complete published C. trachomatis genomes to assess the contribution of recombination and selection in this pathogen and to understand the major evolutionary forces acting on the genome of this bacterium. Results The conserved core genes of C. trachomatis are a large proportion of the pan-genome: we identified 836 core genes in C. trachomatis out of a range of 874-927 total genes in each genome. The ratio of recombination events compared to mutation (ρ/θ) was 0.07 based on ancestral reconstructions using the ClonalFrame tool, but recombination had a significant effect on genetic diversification (r/m = 0.71). The distance-dependent decay of linkage disequilibrium also indicated that C. trachomatis populations behaved intermediately between sexual and clonal extremes. Fifty-five genes were identified as having a history of recombination and 92 were under positive selection based on statistical tests. Twenty-three genes showed evidence of being under both positive selection and recombination, which included genes with a known role in virulence and pathogencity (e.g., ompA, pmps, tarp). Analysis of inter-clade recombination flux indicated non-uniform currents of recombination between clades, which suggests the possibility of spatial population structure in C. trachomatis infections. Conclusions C. trachomatis is the archetype of a bacterial species where recombination is relatively frequent yet gene gains by horizontal gene transfer (HGT) and losses (by deletion) are rare. Gene conversion occurs at sites across the whole C. trachomatis genome but may be more often fixed in genes that are under diversifying selection. Furthermore, genome sequencing will reveal patterns of serotype specific gene exchange and selection that will generate important research questions for understanding C. trachomatis pathogenesis. Reviewers This article was reviewed by Dr. Jeremy Selengut, Dr. Lee S. Katz (nominated by Dr. I. King Jordan) and Dr. Arcady Mushegian.

Published
2011
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38. The Alveolate Perkinsus marinus: Biological Insights from EST Gene Discovery

Author

El-Sayed Najib M, Gardner Malcolm J, Fernández-Robledo José A, Joseph Sandeep J, Kuo Chih-Horng, Schott Eric J, Wang Haiming, Kissinger Jessica C, and Vasta Gerardo R

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

Abstract Background Perkinsus marinus, a protozoan parasite of the eastern oyster Crassostrea virginica, has devastated natural and farmed oyster populations along the Atlantic and Gulf coasts of the United States. It is classified as a member of the Perkinsozoa, a recently established phylum considered close to the ancestor of ciliates, dinoflagellates, and apicomplexans, and a key taxon for understanding unique adaptations (e.g. parasitism) within the Alveolata. Despite intense parasite pressure, no disease-resistant oysters have been identified and no effective therapies have been developed to date. Results To gain insight into the biological basis of the parasite's virulence and pathogenesis mechanisms, and to identify genes encoding potential targets for intervention, we generated >31,000 5' expressed sequence tags (ESTs) derived from four trophozoite libraries generated from two P. marinus strains. Trimming and clustering of the sequence tags yielded 7,863 unique sequences, some of which carry a spliced leader. Similarity searches revealed that 55% of these had hits in protein sequence databases, of which 1,729 had their best hit with proteins from the chromalveolates (E-value ≤ 1e-5). Some sequences are similar to those proven to be targets for effective intervention in other protozoan parasites, and include not only proteases, antioxidant enzymes, and heat shock proteins, but also those associated with relict plastids, such as acetyl-CoA carboxylase and methyl erythrithol phosphate pathway components, and those involved in glycan assembly, protein folding/secretion, and parasite-host interactions. Conclusions Our transcriptome analysis of P. marinus, the first for any member of the Perkinsozoa, contributes new insight into its biology and taxonomic position. It provides a very informative, albeit preliminary, glimpse into the expression of genes encoding functionally relevant proteins as potential targets for chemotherapy, and evidence for the presence of a relict plastid. Further, although P. marinus sequences display significant similarity to those from both apicomplexans and dinoflagellates, the presence of trans-spliced transcripts confirms the previously established affinities with the latter. The EST analysis reported herein, together with the recently completed sequence of the P. marinus genome and the development of transfection methodology, should result in improved intervention strategies against dermo disease.

Published
2010
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39. Phylogenomic analysis reveals persistence of gonococcal strains with reduced-susceptibility to extended-spectrum cephalosporins and mosaic penA-34.

Author

Thomas IV, Jesse C., Joseph, Sandeep J., Cartee, John C., Pham, Cau D., Schmerer, Matthew W., Schlanger, Karen, St. Cyr, Sancta B., Kersh, Ellen N., Raphael, Brian H., the Antimicrobial Resistant Neisseria gonorrhoeae Working Group, Dominguez, Cathy, Patel, Ami, Loomis, Jillian, Hun, Sopheay, Ruiz, Ryan, Talosig, Nicole, Hua, Chi, Zhang, Jenny, Oh, Bonnie, and Leavitt, John

Subjects
NEISSERIA gonorrhoeae, TREATMENT failure, CEPHALOSPORINS, CEFTRIAXONE, NUCLEOTIDE sequencing, GONORRHEA, ALLELES
Abstract

The recent emergence of strains of Neisseria gonorrhoeae associated with treatment failures to ceftriaxone, the foundation of current treatment options, has raised concerns over a future of untreatable gonorrhea. Current global data on gonococcal strains suggest that several lineages, predominately characterized by mosaic penA alleles, are associated with elevated minimum inhibitory concentrations (MICs) to extended spectrum cephalosporins (ESCs). Here we report on whole genome sequences of 813 N. gonorrhoeae isolates collected through the Gonococcal Isolate Surveillance Project in the United States. Phylogenomic analysis revealed that one persisting lineage (Clade A, multi-locus sequence type [MLST] ST1901) with mosaic penA-34 alleles, contained the majority of isolates with elevated MICs to ESCs. We provide evidence that an ancestor to the globally circulating MLST ST1901 clones potentially emerged around the early to mid-20th century (1944, credibility intervals [CI]: 1935–1953), predating the introduction of cephalosporins, but coinciding with the use of penicillin. Such results indicate that drugs with novel mechanisms of action are needed as these strains continue to persist and disseminate globally. Resistance of Neisseria gonorrhoeae to extended spectrum cephalosporins is an increasing concern. Here, the authors conduct whole genome sequencing of isolates from the United States and find that most resistant isolates were associated with a persistent circulating lineage. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Fine-scale differentiation between Bacillus anthracis and Bacillus cereus group signatures in metagenome shotgun data

Author

Petit, Robert A., Hogan, James M., Ezewudo, Matthew N., Joseph, Sandeep J., Read, Timothy D., Petit, Robert A., Hogan, James M., Ezewudo, Matthew N., Joseph, Sandeep J., and Read, Timothy D.

Abstract

Background. It is possible to detect bacterial species in shotgun metagenome datasets through the presence of only a few sequence reads. However, false positive results can arise, as was the case in the initial findings of a recent New York City subway metagenome project. False positives are especially likely when two closely related are present in the same sample. Bacillus anthracis, the etiologic agent of anthrax, is a high-consequence pathogen that shares > 99% average nucleotide identity with Bacillus cereus group (BCerG) genomes. Our goal was to create an analysis tool that used k-mers to detect B. anthracis, incorporating information about the coverage of BCerG in the metagenome sample. Methods. Using public complete genome sequence datasets, we identified a set of 31-mer signatures that differentiated B. anthracis from other members of the B. cereus group (BCerG), and another set which differentiated BCerG genomes (including B. anthracis) from other Bacillus strains. We also created a set of 31-mers for detecting the lethal factor gene, the key genetic diagnostic of the presence of anthrax-causing bacteria. We created synthetic sequence datasets based on existing genomes to test the accuracy of a k-mer based detection model. Results. We found 239,503 B. anthracis-specific 31-mers (the Ba31 set ), 10,183 BCerG 31-mers (the BCerG31 set ), and 2,617 lethal factor k-mers (the lef31 set). We showed that false positive B. anthracis k-mers-which arise from random sequencing errors- are observable at high genome coverages of B. cereus. We also showed that there is a "gray zone" below 0.184× coverage of the B. anthracis genome sequence, in which we cannot expect with high probability to identify lethal factor k-mers. We created a linear regression model to differentiate the presence of B. anthracis-like chromosomes from sequencing errors given the BCerG background coverage. We showed that while shotgun datasets from the New York City subway metagenome project had n

Published
2018

41. Outbreak of Neisseria meningitidis serogroup C outside the meningitis belt—Liberia, 2017: an epidemiological and laboratory investigation

Author

Bozio, Catherine H, primary, Vuong, Jeni, additional, Dokubo, E Kainne, additional, Fallah, Mosoka P, additional, McNamara, Lucy A, additional, Potts, Caelin C, additional, Doedeh, John, additional, Gbanya, Miatta, additional, Retchless, Adam C, additional, Patel, Jaymin C, additional, Clark, Thomas A, additional, Kohar, Henry, additional, Nagbe, Thomas, additional, Clement, Peter, additional, Katawera, Victoria, additional, Mahmoud, Nuha, additional, Djingarey, Harouna M, additional, Perrocheau, Anne, additional, Naidoo, Dhamari, additional, Stone, Mardia, additional, George, Roseline N, additional, Williams, Desmond, additional, Gasasira, Alex, additional, Nyenswah, Tolbert, additional, Wang, Xin, additional, Fox, LeAnne M, additional, Konway, Youhn, additional, Wiah, Samson Q, additional, Doedeh, Vivian, additional, Bao, Umaru, additional, Senneh, George, additional, Gorwor, Lawrence, additional, Gonotee, Philemon, additional, Paasewe, Thomas, additional, Tamatai, George, additional, Yarkeh, James, additional, Smith, Samuel, additional, Brima-Davis, Annette, additional, Dauda, George, additional, Monger, Thomas, additional, Gornor-Pewu, Leleh W, additional, Lombeh, Siafa, additional, Wilson, Himiede W, additional, Korvayan, Mark, additional, Dovillie, Nathaniel, additional, Jetoh, Ralph, additional, Taweh, Fahn, additional, Vera Walker, Yatta, additional, Hardy, Patrick, additional, Freeman, Maxwell, additional, George, Geraldine, additional, Kerwillain, Garrison, additional, Toe, Sylvester, additional, Ghartey, Emmanuel, additional, Larway, Lawrence, additional, Gweh, Dedesco, additional, Allen, Denise, additional, Friesen, Suzanne, additional, Gwesa, Gulu, additional, Kinkade, Carl, additional, Reed, Mulbah, additional, Chang, Arthur, additional, George, Josiah, additional, Schier, Joshua, additional, Thomas, Jerry, additional, Diaz, Maureen H, additional, Jenkins, Laurel T, additional, Mahon, Barbara E, additional, Schmink, Susanna E, additional, Joseph, Sandeep J, additional, Waller, Jessica L, additional, Whaley, Melissa J, additional, Winchell, Jonas M, additional, Arthur, Ray R, additional, Fuller, Serena, additional, Christian, Kira, additional, Redd, John T, additional, Yealue, Kwuakuan D M, additional, Naiene, Jeremias, additional, Asamoah Frimpong, Joseph, additional, Amo-Addae, Maame, additional, Stephen, Olayinka, additional, Von Gottberg, Anne, additional, and Taha, Muhamed, additional

Published
2018
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45. Erratum to: draft sequencing and assembly of the genome of the world’s largest fish, the whale shark: Rhincodon typus smith 1828

Author

Read, Timothy D., primary, Petit, Robert A., additional, Joseph, Sandeep J., additional, Alam, Tauqeer, additional, Weil, M. Ryan, additional, Ahmad, Maida, additional, Bhimani, Ravila, additional, Vuong, Jocelyn S., additional, Haase, Chad P., additional, Webb, D. Harry, additional, Tan, Milton, additional, and Dove, Alistair D.M., additional

Published
2017
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46. Draft sequencing and assembly of the genome of the world’s largest fish, the whale shark: Rhincodon typus Smith 1828

Author

Read, Timothy D., primary, Petit, Robert A., additional, Joseph, Sandeep J., additional, Alam, Md. Tauqeer, additional, Weil, M. Ryan, additional, Ahmad, Maida, additional, Bhimani, Ravila, additional, Vuong, Jocelyn S., additional, Haase, Chad P., additional, Webb, D. Harry, additional, Tan, Milton, additional, and Dove, Alistair D. M., additional

Published
2017
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47. The Alveolate Perkinsus marinus: Biological Insights from EST Gene Discovery

Author

Joseph, Sandeep J, Joseph, Sandeep J, Fernández-Robledo, José A, Gardner, Malcolm J, El-Sayed, Najib M, Kuo, Chih-Horng, Schott, Eric J, Wang, Haiming, Kissinger, Jessica C, Vasta, Gerardo R, Joseph, Sandeep J, Joseph, Sandeep J, Fernández-Robledo, José A, Gardner, Malcolm J, El-Sayed, Najib M, Kuo, Chih-Horng, Schott, Eric J, Wang, Haiming, Kissinger, Jessica C, and Vasta, Gerardo R

Abstract

Perkinsus marinus, a protozoan parasite of the eastern oyster Crassostrea virginica, has devastated natural and farmed oyster populations along the Atlantic and Gulf coasts of the United States. It is classified as a member of the Perkinsozoa, a recently established phylum considered close to the ancestor of ciliates, dinoflagellates, and apicomplexans, and a key taxon for understanding unique adaptations (e.g. parasitism) within the Alveolata. Despite intense parasite pressure, no disease-resistant oysters have been identified and no effective therapies have been developed to date. To gain insight into the biological basis of the parasite's virulence and pathogenesis mechanisms, and to identify genes encoding potential targets for intervention, we generated >31,000 5' expressed sequence tags (ESTs) derived from four trophozoite libraries generated from two P. marinus strains. Trimming and clustering of the sequence tags yielded 7,863 unique sequences, some of which carry a spliced leader. Similarity searches revealed that 55% of these had hits in protein sequence databases, of which 1,729 had their best hit with proteins from the chromalveolates (E-value ≤ 1e-5). Some sequences are similar to those proven to be targets for effective intervention in other protozoan parasites, and include not only proteases, antioxidant enzymes, and heat shock proteins, but also those associated with relict plastids, such as acetyl-CoA carboxylase and methyl erythrithol phosphate pathway components, and those involved in glycan assembly, protein folding/secretion, and parasite-host interactions. Our transcriptome analysis of P. marinus, the first for any member of the Perkinsozoa, contributes new insight into its biology and taxonomic position. It provides a very informative, albeit preliminary, glimpse into the expression of genes encoding functionally relevant proteins as potential targets for chemotherapy, and evidence for the presence of a relict plastid. Further, although P. mar

Published
2010

48. Tetracycline Selective Pressure and Homologous Recombination Shape the Evolution ofChlamydia suis: A Recently Identified Zoonotic Pathogen

Author

Joseph, Sandeep J, Marti, Hanna; https://orcid.org/0000-0002-8398-4708, Didelot, Xavier, Read, Timothy D, Dean, Deborah, Joseph, Sandeep J, Marti, Hanna; https://orcid.org/0000-0002-8398-4708, Didelot, Xavier, Read, Timothy D, and Dean, Deborah

Abstract

Species closely related to the human pathogen Chlamydia trachomatis (Ct) have recently been found to cause zoonotic infections, posing a public health threat especially in the case of tetracycline resistant Chlamydia suis (Cs) strains. These strains acquired a tet(C)-containing cassette via horizontal gene transfer (HGT). Genomes of 11 Cs strains from various tissues were sequenced to reconstruct evolutionary pathway(s) for tet(C) HGT. Cs had the highest recombination rate of Chlamydia species studied to date. Admixture occurred among Cs strains and with Chlamydia muridarum but not with Ct Although in vitro tet(C) cassette exchange with Ct has been documented, in vivo evidence may require examining human samples from Ct and Cs co-infected sites. Molecular-clock dating indicated that ancestral clades of resistant Cs strains predated the 1947 discovery of tetracycline, which was subsequently used in animal feed. The cassette likely spread throughout Cs strains by homologous recombination after acquisition from an external source, and our analysis suggests Betaproteobacteria as the origin. Selective pressure from tetracycline may be responsible for recent bottlenecks in Cs populations. Since tetracycline is an important antibiotic for treating Ct, zoonotic infections at mutual sites of infection indicate the possibility for cassette transfer and major public health repercussions.

Published
2016

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