Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-22 (of 22 Records) |
Query Trace: Loparev VN[original query] |
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Genomic basis of multidrug-resistance, mating, and virulence in Candida auris and related emerging species (preprint)
Munoz JF , Gade L , Chow NA , Loparev VN , Juieng P , Berkow EL , Farrer RA , Litvintseva AP , Cuomo CA . bioRxiv 2018 299917 Candida auris is an emergent fungal pathogen of rising public health concern due to increasing reports of outbreaks in healthcare settings and resistance to multiple classes of antifungal drugs. While distantly related to the more common pathogens C. albicans and C. glabrata, C. auris is closely related to three rarely observed and often multidrug-resistant species, C. haemulonii, C. duobushaemulonii and C. pseudohaemulonii. Here, we generated and analyzed near complete genome assemblies and RNA-Seq-guided gene predictions for isolates from each of the four major C. auris clades and for C. haemulonii, C. duobushaemulonii and C. pseudohaemulonii. Our analyses mapped seven chromosomes and revealed chromosomal rearrangements between C. auris clades and related species. We found conservation of genes involved in mating and meiosis and identified both MTLa and MTLα C. auris isolates, suggesting the potential for mating between clades. Gene conservation analysis highlighted that many genes linked to drug resistance and virulence in other pathogenic Candida species are conserved in C. auris and related species including expanded families of transporters and lipases, as well as mutations and copy number variants in ERG11 that confer drug resistance. In addition, we found genetic features of the emerging species that likely underlie differences in virulence and drug response between these and other Candida species, including genes involved in cell wall structure. To begin to characterize the species-specific genes important for antifungal response, we profiled the gene expression of C. auris in response to voriconazole and amphotericin B and found induction of several transporters and metabolic regulators that may play a role in drug resistance. This study provides a comprehensive view of the genomic basis of drug resistance, potential for mating, and virulence in this emerging fungal clade. |
Conserved Patterns of Symmetric Inversion in the Genome Evolution of Bordetella Respiratory Pathogens.
Weigand MR , Peng Y , Batra D , Burroughs M , Davis JK , Knipe K , Loparev VN , Johnson T , Juieng P , Rowe LA , Sheth M , Tang K , Unoarumhi Y , Williams MM , Tondella ML . mSystems 2019 4 (6) Whooping cough (pertussis), primarily caused by Bordetella pertussis, has resurged in the United States, and circulating strains exhibit considerable chromosome structural fluidity in the form of rearrangement and deletion. The genus Bordetella includes additional pathogenic species infecting various animals, some even causing pertussis-like respiratory disease in humans; however, investigation of their genome evolution has been limited. We studied chromosome structure in complete genome sequences from 167 Bordetella species isolates, as well as 469 B. pertussis isolates, to gain a generalized understanding of rearrangement patterns among these related pathogens. Observed changes in gene order primarily resulted from large inversions and were only detected in species with genomes harboring multicopy insertion sequence (IS) elements, most notably B. holmesii and B. parapertussis While genomes of B. pertussis contain >240 copies of IS481, IS elements appear less numerous in other species and yield less chromosome structural diversity through rearrangement. These data were further used to predict all possible rearrangements between IS element copies present in Bordetella genomes, revealing that only a subset is observed among circulating strains. Therefore, while it appears that rearrangement occurs less frequently in other species than in B. pertussis, these clinically relevant respiratory pathogens likely experience similar mutation of gene order. The resulting chromosome structural fluidity presents both challenges and opportunity for the study of Bordetella respiratory pathogens.IMPORTANCE Bordetella pertussis is the primary agent of whooping cough (pertussis). The Bordetella genus includes additional pathogens of animals and humans, including some that cause pertussis-like respiratory illness. The chromosome of B. pertussis has previously been shown to exhibit considerable structural rearrangement, but insufficient data have prevented comparable investigation in related species. In this study, we analyze chromosome structure variation in several Bordetella species to gain a generalized understanding of rearrangement patterns in this genus. Just as in B. pertussis, we observed inversions in other species that likely result from common mutational processes. We used these data to further predict additional, unobserved inversions, suggesting that specific genome structures may be preferred in each species. |
Genomic insights into multidrug-resistance, mating and virulence in Candida auris and related emerging species.
Munoz JF , Gade L , Chow NA , Loparev VN , Juieng P , Berkow EL , Farrer RA , Litvintseva AP , Cuomo CA . Nat Commun 2018 9 (1) 5346 Candida auris is an emergent multidrug-resistant fungal pathogen causing increasing reports of outbreaks. While distantly related to C. albicans and C. glabrata, C. auris is closely related to rarely observed and often multidrug-resistant species from the C. haemulonii clade. Here, we analyze near complete genome assemblies for the four C. auris clades and three related species, and map intra- and inter-species rearrangements across the seven chromosomes. Using RNA-Seq-guided gene predictions, we find that most mating and meiosis genes are conserved and that clades contain either the MTLa or MTLalpha mating loci. Comparing the genomes of these emerging species to those of other Candida species identifies genes linked to drug resistance and virulence, including expanded families of transporters and lipases, as well as mutations and copy number variants in ERG11. Gene expression analysis identifies transporters and metabolic regulators specific to C. auris and those conserved with related species which may contribute to differences in drug response in this emerging fungal clade. |
PacBio Genome Sequences of Escherichia coli Serotype O157:H7, Diffusely Adherent E. coli , and Salmonella enterica Strains, All Carrying Plasmids with an mcr-1 Resistance Gene.
Lindsey RL , Batra D , Smith P , Patel PN , Tagg KA , Garcia-Toledo L , Loparev VN , Juieng P , Sheth M , Joung YJ , Rowe LA . Microbiol Resour Announc 2018 7 (14) We report here Illumina-corrected PacBio whole-genome sequences of an Escherichia coli serotype O157:H7 strain (2017C-4109), an E. coli serotype O[undetermined]:H2 strain (2017C-4173W12), and a Salmonella enterica subsp. enterica serovar Enteritidis strain (2017K-0021), all of which carried the mcr-1 resistance gene on an IncI2 or IncX4 plasmid. We also determined that pMCR-1-CTSe is identical to a previously published plasmid, pMCR-1-CT. |
High-Quality Whole-Genome Sequences for 77 Shiga Toxin-Producing Escherichia coli Strains Generated with PacBio Sequencing.
Patel PN , Lindsey RL , Garcia-Toledo L , Rowe LA , Batra D , Whitley SW , Drapeau D , Stoneburg D , Martin H , Juieng P , Loparev VN , Strockbine N . Genome Announc 2018 6 (19) Shiga toxin-producing Escherichia coli (STEC) is an enteric foodborne pathogen that can cause mild to severe illness. Here, we report the availability of high-quality whole-genome sequences for 77 STEC strains generated using the PacBio sequencing platform. |
High-Quality Whole-Genome Sequences for 59 Historical Shigella Strains Generated with PacBio Sequencing.
Kim J , Lindsey RL , Garcia-Toledo L , Loparev VN , Rowe LA , Batra D , Juieng P , Stoneburg D , Martin H , Knipe K , Smith P , Strockbine N . Genome Announc 2018 6 (15) Shigella spp. are enteric pathogens that cause shigellosis. We report here the high-quality whole-genome sequences of 59 historical Shigella strains that represent the four species and a variety of serotypes. |
Genome Sequence of a Multidrug-Resistant Candida haemulonii Isolate from a Patient with Chronic Leg Ulcers in Israel.
Chow NA , Gade L , Batra D , Rowe LA , Juieng P , Ben-Ami R , Loparev VN , Litvintseva AP . Genome Announc 2018 6 (15) Candida haemulonii is an emerging multidrug-resistant yeast that can cause invasive candidiasis. Here, we report the first genome sequence of C. haemulonii (isolate B11899) generated using PacBio sequencing technology. The estimated genome size was 13.3 Mb, with a GC content of 45.19%. |
Genome Sequence of the Amphotericin B-Resistant Candida duobushaemulonii Strain B09383.
Chow NA , Gade L , Batra D , Rowe LA , Juieng P , Loparev VN , Litvintseva AP . Genome Announc 2018 6 (13) Candida duobushaemulonii is a drug-resistant yeast that can cause invasive candidiasis. Here, we report the first genome sequence of C. duobushaemulonii, isolate B09383, generated using PacBio sequencing technology. The estimated genome size was 12.5 Mb with a GC content of 46.84%. |
Screening and genomic characterization of filamentous hemagglutinin-deficient Bordetella pertussis.
Weigand MR , Pawloski LC , Peng Y , Ju H , Burroughs M , Cassiday PK , Davis JK , DuVall M , Johnson T , Juieng P , Knipe K , Loparev VN , Mathis MH , Rowe LA , Sheth M , Williams MM , Tondella ML . Infect Immun 2018 86 (4) Despite high vaccine coverage, pertussis cases in the United States (US) have increased over the last decade. Growing evidence suggests that disease resurgence results, in part, from genetic divergence of circulating strain populations away from vaccine references. The US exclusively employs acellular vaccines and current Bordetella pertussis isolates are predominantly deficient in at least one immunogen, pertactin (Prn). First detected in the US retrospectively in a 1994 isolate, the rapid spread of Prn deficiency is likely vaccine driven, raising concerns about whether other acellular vaccine immunogens experience similar pressures as further antigenic changes could potentially threaten vaccine efficacy. We developed an electrochemiluminescent antibody capture assay to monitor production of the acellular vaccine immunogen filamentous hemagglutinin (Fha). Screening 722 US surveillance isolates collected from 2010-2016 identified two that were both Prn- and Fha-deficient. Three additional Fha-deficient laboratory strains were also identified from a historic collection of 65 isolates dating back to 1935. Whole-genome sequencing of deficient isolates revealed putative, underlying genetic changes. Only four isolates harbored mutation to known genes involved in Fha production, highlighting the complexity of its regulation. The chromosomes of two Fha-deficient isolates included unexpected structural variation that did not appear to influence Fha production. Furthermore, insertion sequence disruption of fhaB was also detected in a previously identified pertussis toxin-deficient isolate that still produced normal levels of Fha. These results demonstrate the genetic potential for additional vaccine immunogen deficiency and underscore the importance of continued surveillance of circulating B. pertussis evolution in response to vaccine pressure. |
High-Quality Complete and Draft Genome Sequences for Three Escherichia spp. and Three Shigella spp. Generated with Pacific Biosciences and Illumina Sequencing and Optical Mapping.
Schroeder MR , Juieng P , Batra D , Knipe K , Rowe LA , Sheth M , Smith P , Garcia-Toledo L , Loparev VN , Lindsey RL . Genome Announc 2018 6 (1) Escherichia spp., including E. albertii and E. coli, Shigella dysenteriae, and S. flexneri are causative agents of foodborne disease. We report here reference-level whole-genome sequences of E. albertii (2014C-4356), E. coli (2011C-4315 and 2012C-4431), S. dysenteriae (BU53M1), and S. flexneri (94-3007 and 71-2783). |
Complete Circularized Genome Sequences of Four Strains of Elizabethkingia anophelis, Including Two Novel Strains Isolated from Wild-Caught Anopheles sinensis.
Pei D , Nicholson AC , Jiang J , Chen H , Whitney AM , Villarma A , Bell M , Humrighouse B , Rowe LA , Sheth M , Batra D , Juieng P , Loparev VN , McQuiston JR , Lan Y , Ma Y , Xu J . Genome Announc 2017 5 (47) We provide complete circularized genome sequences of two mosquito-derived Elizabethkingia anophelis strains with draft sequences currently in the public domain (R26 and Ag1), and two novel E. anophelis strains derived from a different mosquito species, Anopheles sinensis (AR4-6 and AR6-8). The genetic similarity of all four mosquito-derived strains is remarkable. |
Twelve Complete Reference Genomes of Clinical Isolates in the Capnocytophaga Genus.
Villarma A , Gulvik CA , Rowe LA , Sheth M , Juieng P , Nicholson AC , Loparev VN , McQuiston JR . Genome Announc 2017 5 (44) We report here 1 near-complete genome sequence and 12 complete genome sequences for clinical Capnocytophaga isolates. Total read coverages ranged from 211x to 737x, and genome sizes ranged from 2.41 Mb to 3.10 Mb. These genomes will enable a more comprehensive taxonomic evaluation of the Capnocytophaga genus. |
Complete Genome Sequences of Bordetella pertussis Isolates with Novel Pertactin-Deficient Deletions.
Weigand MR , Peng Y , Cassiday PK , Loparev VN , Johnson T , Juieng P , Nazarian EJ , Weening K , Tondella ML , Williams MM . Genome Announc 2017 5 (37) Clinical isolates of the respiratory pathogen Bordetella pertussis in the United States have become predominantly deficient for the acellular vaccine immunogen pertactin through various independent mutations. Here, we report the complete genome sequences for four B. pertussis isolates that harbor novel deletions responsible for pertactin deficiency. |
Enterococcus crotali sp. nov., isolated from faecal material of a timber rattlesnake
McLaughlin RW , Shewmaker PL , Whitney AM , Humrighouse BW , Lauer AC , Loparev VN , Gulvik CA , Cochran PA , Dowd SE . Int J Syst Evol Microbiol 2017 67 (6) 1984-1989 A facultatively anaerobic, Gram-stain-positive bacterium, designated ETRF1T, was found in faecal material of a timber rattlesnake (Crotalus horridus). Based on a comparative 16S rRNA gene sequence analysis, the isolate was assigned to the genus Enterococcus. The 16S rRNA gene sequence of strain ETRF1T showed >97 % similarity to that of the type strains of Enterococcus rotai, E. caccae, E. silesiacus, E haemoperoxidus, E. ureasiticus, E. moraviensis, E. plantarum, E. quebecensis, E. ureilyticus, E. termitis, E. rivorum and E. faecalis. The organism could be distinguished from these 12 phylogenetically related enterococci using conventional biochemical testing, the Rapid ID32 Strep system, comparative pheS and rpoA gene sequence analysis, and comparative whole genome sequence analysis. The estimated in silico DNA-DNA hybridization values were <70 %, and average nucleotide identity values were <96 %, when compared to these 12 species, further validating that ETRF1T represents a unique species within the genus Enterococcus. On the basis of these analyses, strain ETRF1T (=CCUG 65857T=LMG 28312T) is proposed as the type strain of a novel species, Enterococcus crotali sp. nov. |
High-Quality Genome Sequence of an Escherichia coli O157 Strain Carrying an mcr-1 Resistance Gene Isolated from a Patient in the United States.
Lindsey RL , Batra D , Rowe L , Loparev VN , Stripling D , Garcia-Toledo L , Knipe K , Juieng P , Sheth M , Martin H , Laufer Halpin A . Genome Announc 2017 5 (11) Enterobacteriaceae carrying plasmid-mediated colistin resistance have been found around the world. We report here the high-quality whole-genome sequence of an Escherichia coli O157:H48 isolate (2016C-3936C1) from Connecticut that carried the mcr-1 resistance gene on an IncX4-type plasmid. |
Complete Genome Sequences for Three Chromosomes of the Burkholderia stabilis Type Strain (ATCC BAA-67).
Bugrysheva JV , Cherney B , Sue D , Conley AB , Rowe LA , Knipe KM , Frace MA , Loparev VN , Avila JR , Anderson K , Hodge DR , Pillai SP , Weigel LM . Genome Announc 2016 4 (6) We report here the complete annotated genome sequence of the Burkholderia stabilis type strain ATCC BAA-67. There were three circular chromosomes with a combined size of 8,527,947 bp and G+C composition of 66.4%. These characteristics closely resemble the genomes of other sequenced members of the Burkholderia cepacia complex. |
Complete Genome Sequences of Four Strains from the 2015-2016 Elizabethkingia anophelis Outbreak.
Nicholson AC , Whitney AM , Emery BD , Bell ME , Gartin JT , Humrighouse BW , Loparev VN , Batra D , Sheth M , Rowe LA , Juieng P , Knipe K , Gulvik C , McQuiston JR . Genome Announc 2016 4 (3) The complete circularized genome sequences of selected specimens from the largest known Elizabethkingia anophelis outbreak to date are described here. Genomic rearrangements observed among the outbreak strains are discussed. |
Three Genome Sequences of Legionella pneumophila subsp. pascullei Associated with Colonization of a Health Care Facility.
Kozak-Muiznieks NA , Morrison SS , Sammons S , Rowe LA , Sheth M , Frace M , Lucas CE , Loparev VN , Raphael BH , Winchell JM . Genome Announc 2016 4 (3) e00335-16 Here, we report the complete genome sequences of three Legionella pneumophila subsp. pascullei strains (including both serogroup 1 and 5 strains) that were found in the same health care facility in 1982 and 2012. |
Molecular detection of airborne Coccidioides in Tucson, Arizona.
Chow NA , Griffin DW , Barker BM , Loparev VN , Litvintseva AP . Med Mycol 2016 54 (6) 584-92 Environmental surveillance of the soil-dwelling fungus Coccidioides is essential for the prevention of Valley fever, a disease primarily caused by inhalation of the arthroconidia. Methods for collecting and detecting Coccidioides in soil samples are currently in use by several laboratories; however, a method utilizing current air sampling technologies has not been formally demonstrated for the capture of airborne arthroconidia. In this study, we collected air/dust samples at two sites (Site A and Site B) in the endemic region of Tucson, Arizona, and tested a variety of air samplers and membrane matrices. We then employed a single-tube nested qPCR assay for molecular detection. At both sites, numerous soil samples (n = 10 at Site A and n = 24 at Site B) were collected and Coccidioides was detected in two samples (20%) at Site A and in eight samples (33%) at Site B. Of the 25 air/dust samples collected at both sites using five different air sampling methods, we detected Coccidioides in three samples from site B. All three samples were collected using a high-volume sampler with glass-fiber filters. In this report, we describe these methods and propose the use of these air sampling and molecular detection strategies for environmental surveillance of Coccidioides. |
Finished Annotated Genome Sequence of Burkholderia pseudomallei Strain Bp1651, a Multidrug-Resistant Clinical Isolate.
Bugrysheva JV , Sue D , Hakovirta J , Loparev VN , Knipe K , Sammons SA , Ranganathan-Ganakammal S , Changayil S , Srinivasamoorthy G , Weil MR , Tatusov RL , Gee JE , Elrod MG , Hoffmaster AR , Weigel LM . Genome Announc 2015 3 (6) Burkholderia pseudomallei strain Bp1651, a human isolate, is resistant to all clinically relevant antibiotics. We report here on the finished genome sequence assembly and annotation of the two chromosomes of this strain. This genome sequence may assist in understanding the mechanisms of antimicrobial resistance for this pathogenic species. |
Genome Sequence of a Urease-Positive Campylobacter lari Strain.
Meinersmann RJ , Bono JL , Lindsey RL , Genzlinger LL , Loparev VN , Oakley BB . Genome Announc 2015 3 (5) Campylobacter lari is frequently isolated from shore birds and can cause illness in humans. Here, we report the draft whole-genome sequence of a urease-positive strain of C. lari that was isolated in estuarial water on the coast of Delaware, USA. |
Draft genome sequences of Bordetella holmesii strains from blood (F627) and nasopharynx (H558).
Tatti KM , Loparev VN , Ranganathanganakammal S , Changayil S , Frace M , Weil MR , Sammons S , Maccannell D , Mayer LW , Tondella ML . Genome Announc 2013 1 (2) e0005613 Bordetella holmesii, a human pathogen, can confound the diagnosis of respiratory illness caused by Bordetella pertussis. We present the draft genome sequences of two B. holmesii isolates, one from blood, F627, and one from the nasopharynx, H558. Interestingly, important virulence genes that are present in B. pertussis are not found in B. holmesii. |
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