Your search keyword '"Maffei JG"' showing total 19 results

1. Land use and west nile virus seroprevalence in wild mammals.

Author

Gómez A, Kilpatrick AM, Kramer LD, Dupuis AP 2nd, Maffei JG, Goetz SJ, Marra PP, Daszak P, Aguirre AA, Gómez, Andrés, Kilpatrick, A Marm, Kramer, Laura D, Dupuis, Alan P 2nd, Maffei, Joseph G, Goetz, Scott J, Marra, Peter P, Daszak, Peter, and Aguirre, A Alonso

Abstract

We examined West Nile virus (WNV) seroprevalence in wild mammals along a forest-to-urban gradient in the US mid-Atlantic region. WNV antibody prevalence increased with age, urbanization, and date of capture for juveniles and varied significantly between species. These findings suggest several requirements for using mammals as indicators of transmission. [ABSTRACT FROM AUTHOR]

Published

2008

2. Identification and characterization of novel lineage 1 Powassan virus strains in New York State.

Author

Lange RE, Dupuis Ii AP, Prusinski MA, Maffei JG, Koetzner CA, Ngo K, Backenson B, Oliver J, Vogels CBF, Grubaugh ND, Kramer LD, and Ciota AT

Subjects

Animals, Humans, New York epidemiology, North America, Russia, Mammals, Ixodes, Encephalitis Viruses, Tick-Borne genetics

Abstract

Powassan virus (POWV, family Flaviviridae ) is a reemerging tick-borne virus endemic in North America and Russia. In 1997, a POWV-like agent was isolated from Ixodes scapularis in New England and determined to be genetically distinct from the original POWV isolate. This revealed the existence of two lineages: lineage 1, prototype Powassan virus (POWV-1) and lineage 2, deer tick virus (DTV). POWV-1 is thought to be primarily maintained in a cycle between I. cookei and woodchucks and I. marxi and squirrels, while DTV is primarily maintained in a cycle between I. scapularis and small mammal hosts. Recent tick, mammalian, and human isolates from New York State (NYS) have been identified as DTV, but for the first time in 45 years, we detected four POWV-1 isolates, including the first reported isolation of POWV-1 from I. scapularis . We aimed to investigate genotypic and phenotypic characteristics of recent NYS isolates through sequence analysis and evaluation of replication kinetics in vitro and in vivo . Our sequencing revealed genetic divergence between NYS POWV-1 isolates, with two distinct foci. We found that POWV-1 isolates displayed variable replication kinetics in nymphal ticks but not in cell culture. POWV-1 isolated from I. scapularis displayed increased fitness in experimentally infected I. scapularis as compared to historic and recent POWV-1 isolates from I. cookei . These data suggest the emergence of divergent POWV-1 strains in alternate tick hosts and maintenance of genetically and phenotypically discrete POWV-1 foci.

Published

2023

3. Surveillance and Genetic Analysis of Jamestown Canyon Virus in New York State: 2001-2022.

Author

Ngo KA, Maffei JG, Koetzner CA, Zink SD, Payne AF, Backenson PB, White JL, Dupuis AP, Kramer LD, and Ciota AT

Subjects

Animals, Humans, New York epidemiology, Phylogeny, Encephalitis Virus, California genetics, Encephalitis, California, Anopheles

Abstract

Jamestown Canyon virus (JCV) (Peribunyavirdae; Orthobunyavirus) is a mosquito-borne pathogen endemic to North America. The genome is composed of three segmented negative-sense RNA fragments designated as small, medium, and large. Jamestown Canyon virus is an emerging threat to public health, and infection in humans can cause severe neurological diseases, including encephalitis and meningitis. We report JCV mosquito surveillance data from 2001 to 2022 in New York state. Jamestown Canyon virus was detected in 12 mosquito species, with the greatest prevalence in Aedes canadensis and Anopheles punctipennis. Detection fluctuated annually, with the highest levels recorded in 2020. Overall, JCV infection rates were significantly greater from 2012 to 2022 compared with 2001 to 2011. Full-genome sequencing and phylogenetic analysis were also performed with representative JCV isolates collected from 2003 to 2022. These data demonstrated the circulation of numerous genetic variants, broad geographic separation, and the first identification of lineage B JCV in New York state in 2022.

Published

2023

4. Dynamics of eastern equine encephalitis virus during the 2019 outbreak in the Northeast United States.

Author

Hill V, Koch RT, Bialosuknia SM, Ngo K, Zink SD, Koetzner CA, Maffei JG, Dupuis AP, Backenson PB, Oliver J, Bransfield AB, Misencik MJ, Petruff TA, Shepard JJ, Warren JL, Gill MS, Baele G, Vogels CBF, Gallagher G, Burns P, Hentoff A, Smole S, Brown C, Osborne M, Kramer LD, Armstrong PM, Ciota AT, and Grubaugh ND

Subjects

Animals, Horses, Humans, Mosquito Vectors, Massachusetts epidemiology, Disease Outbreaks veterinary, Encephalitis Virus, Eastern Equine genetics, Encephalomyelitis, Equine epidemiology, Encephalomyelitis, Equine veterinary, Culicidae, Songbirds

Abstract

Eastern equine encephalitis virus (EEEV) causes a rare but severe disease in horses and humans and is maintained in an enzootic transmission cycle between songbirds and Culiseta melanura mosquitoes. In 2019, the largest EEEV outbreak in the United States for more than 50 years occurred, centered in the Northeast. To explore the dynamics of the outbreak, we sequenced 80 isolates of EEEV and combined them with existing genomic data. We found that, similar to previous years, cases were driven by multiple independent but short-lived virus introductions into the Northeast from Florida. Once in the Northeast, we found that Massachusetts was important for regional spread. We found no evidence of any changes in viral, human, or bird factors which would explain the increase in cases in 2019, although the ecology of EEEV is complex and further data is required to explore these in more detail. By using detailed mosquito surveillance data collected by Massachusetts and Connecticut, however, we found that the abundance of Cs. melanura was exceptionally high in 2019, as was the EEEV infection rate. We employed these mosquito data to build a negative binomial regression model and applied it to estimate early season risks of human or horse cases. We found that the month of first detection of EEEV in mosquito surveillance data and vector index (abundance multiplied by infection rate) were predictive of cases later in the season. We therefore highlight the importance of mosquito surveillance programs as an integral part of public health and disease control., Competing Interests: Declaration of interests The authors declare no conflicts of interest related to this work., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

5. Bourbon Virus Transmission, New York, USA.

Author

Dupuis AP 2nd, Prusinski MA, O'Connor C, Maffei JG, Koetzner CA, Zembsch TE, Zink SD, White AL, Santoriello MP, Romano CL, Xu G, Ribbe F, Campbell SR, Rich SM, Backenson PB, Kramer LD, and Ciota AT

Subjects

Animals, New York epidemiology, Arachnid Vectors, Deer, Ticks

Abstract

In July 2019, Bourbon virus RNA was detected in an Amblyomma americanum tick removed from a resident of Long Island, New York, USA. Tick infection and white-tailed deer (Odocoileus virginianus) serosurvey results demonstrate active transmission in New York, especially Suffolk County, emphasizing a need for surveillance anywhere A. americanum ticks are reported.

Published

2023

6. Adaptive evolution of West Nile virus facilitated increased transmissibility and prevalence in New York State.

Author

Bialosuknia SM, Dupuis Ii AP, Zink SD, Koetzner CA, Maffei JG, Owen JC, Landwerlen H, Kramer LD, and Ciota AT

Subjects

Animals, Humans, Mosquito Vectors, New York epidemiology, Prevalence, West Nile Fever, West Nile virus genetics

Abstract

West Nile virus (WNV; Flavivirus, Flaviviridae) was introduced to New York State (NYS) in 1999 and rapidly expanded its range through the continental United States (US). Apart from the displacement of the introductory NY99 genotype with the WN02 genotype, there has been little evidence of adaptive evolution of WNV in the US. WNV NY10, characterized by shared amino acid substitutions R1331K and I2513M, emerged in 2010 coincident with increased WNV cases in humans and prevalence in mosquitoes. Previous studies demonstrated an increase in frequency of NY10 strains in NYS and evidence of positive selection. Here, we present updated surveillance and sequencing data for WNV in NYS and investigate if NY10 genotype strains are associated with phenotypic change consistent with an adaptive advantage. Results confirm a significant increase in prevalence in mosquitoes though 2018, and updated sequencing demonstrates a continued dominance of NY10. We evaluated NY10 strains in Culex pipiens mosquitoes to assess vector competence and found that the NY10 genotype is associated with both increased infectivity and transmissibility. Experimental infection of American robins ( Turdus migratorius ) was additionally completed to assess viremia kinetics of NY10 relative to WN02. Modelling the increased infectivity and transmissibility of the NY10 strains together with strain-specific viremia demonstrates a mechanistic basis for selection that has likely contributed to the increased prevalence of WNV in NYS.

Published

2022

7. Aedes Albopictus and Cache Valley virus: a new threat for virus transmission in New York State.

Author

Dieme C, Maffei JG, Diarra M, Koetzner CA, Kuo L, Ngo KA, Dupuis Ii AP, Zink SD, Backenson PB, Kramer LD, and Ciota AT

Subjects

Animals, Disease Vectors, Humans, Mosquito Vectors, New York, Aedes, Bunyamwera virus genetics

Abstract

We report surveillance results of Cache Valley virus (CVV; Peribunyaviridae , Orthobunyavirus ) from 2017 to 2020 in New York State (NYS). Infection rates were calculated using the maximum likelihood estimation (MLE) method by year, region, and mosquito species. The highest infection rates were identified among Anopheles spp. mosquitoes and we detected the virus in Aedes albopictus for the first time in NYS. Based on our previous Anopheles quadrimaculatus vector competence results for nine CVV strains, we selected among them three stains for further characterization. These include two CVV reassortants (PA and 15041084) and one CVV lineage 2 strain (Hu-2011). We analyzed full genomes, compared in vitro growth kinetics and assessed vector competence of Aedes albopictus . Sequence analysis of the two reassortant strains (PA and 15041084) revealed 0.3%, 0.4%, and 0.3% divergence; and 1, 10, and 6 amino acid differences for the S, M, and L segments, respectively. We additionally found that the PA strain was attenuated in vertebrate (Vero) and mosquito (C6/36) cell culture. Furthemore, Ae. albopictus mosquitoes are competent vectors for CVV Hu-2011 (16.7-62.1% transmission rates) and CVV 15041084 (27.3-48.0% transmission rates), but not for the human reassortant (PA) isolate, which did not disseminate from the mosquito midgut. Together, our results demonstrate significant phenotypic variability among strains and highlight the capacity for Ae. albopictus to act as a vector of CVV.

Published

2022

8. Role of Anopheles Mosquitoes in Cache Valley Virus Lineage Displacement, New York, USA.

Author

Dieme C, Ngo KA, Tyler S, Maffei JG, Zink SD, Dupuis AP, Koetzner CA, Shultis C, Stout J, Payne AF, Backenson PB, Kuo L, Drebot MA, Ciota AT, and Kramer LD

Subjects

Animals, Horses, Mosquito Vectors, New York epidemiology, Phylogeny, Sheep, Anopheles, Bunyamwera virus genetics

Abstract

Cache Valley virus (CVV) is a mosquitoborne virus that infects livestock and humans. We report results of surveillance for CVV in New York, USA, during 2000-2016; full-genome analysis of selected CVV isolates from sheep, horse, humans, and mosquitoes from New York and Canada; and phenotypic characterization of selected strains. We calculated infection rates by using the maximum-likelihood estimation method by year, region, month, and mosquito species. The highest maximum-likelihood estimations were for Anopheles spp. mosquitoes. Our phylogenetic analysis identified 2 lineages and found evidence of segment reassortment. Furthermore, our data suggest displacement of CVV lineage 1 by lineage 2 in New York and Canada. Finally, we showed increased vector competence of An. quadrimaculatus mosquitoes for lineage 2 strains of CVV compared with lineage 1 strains.

Published

2022

9. Heartland Virus Transmission, Suffolk County, New York, USA.

Author

Dupuis AP 2nd, Prusinski MA, O'Connor C, Maffei JG, Ngo KA, Koetzner CA, Santoriello MP, Romano CL, Xu G, Ribbe F, Campbell SR, Rich SM, Backenson PB, Kramer LD, and Ciota AT

Subjects

Animals, Humans, New York epidemiology, Deer, Phlebovirus, Ticks

Abstract

During 2018, Heartland virus RNA was detected in an Amblyomma americanum tick removed from a resident of Suffolk County, New York, USA. The person showed seroconversion. Tick surveillance and white-tailed deer (Odocoileus virginianus) serosurveys showed widespread distribution in Suffolk County, emphasizing a need for disease surveillance anywhere A. americanum ticks are established or emerging.

Published

2021

10. Serologic Survey of Mosquito-Borne Viruses in Hunter-Harvested White-Tailed Deer (Odocoileus virginianus), New York State.

Author

Dupuis AP, Prusinski MA, Russell A, O'Connor C, Maffei JG, Oliver J, Howard JJ, Sherwood JA, Tober K, Rochlin I, Cucura M, Backenson B, and Kramer LD

Subjects

Animals, Deer immunology, Female, Male, Neutralization Tests, New York epidemiology, Seroepidemiologic Studies, Vector Borne Diseases epidemiology, Vector Borne Diseases immunology, Viruses classification, Viruses pathogenicity, Antibodies, Viral blood, Culicidae virology, Deer virology, Hunting statistics & numerical data, Vector Borne Diseases virology, Viruses immunology

Abstract

Sera from white-tailed deer (WTD, Odocoileus virginianus) hunter-harvested throughout New York State (NYS), 2007-2015, were tested by plaque reduction neutralization for antibodies against nine mosquito-borne viruses from the families Peribunyaviridae, Flaviviridae, and Togaviridae. Overall, 76.1% (373/490) of sampled WTD were seropositive against at least one virus, and 38.8% were exposed to multiple viruses. The seropositivity rate in adult WTD (78.0%) was significantly greater (P < 0.0001) than that in fawns (47.7%). Neutralizing antibodies against California serogroup viruses were most common in WTD sampled across all regions (67.1%), followed by the Bunyamwera serogroup (BUN) (37.6%). Jamestown Canyon and Cache Valley orthobunyaviruses were responsible for most California and BUN infections, respectively. Seroprevalence rates to West Nile virus were higher in samples originating from Long Island (LI) (19.0%) than in those originating from the central (7.3%), western (5.0%), and Hudson Valley (4.4%) regions of NYS. Antibodies to Eastern equine encephalitis virus were seen primarily in WTD from central NYS (5.1%), where annual enzootic activity occurs, but low rates were documented in western NYS (1.4%) and LI (1.7%). Low rates of Potosi and LaCrosse orthobunyavirus, and Highlands J virus antibodies were detected over the course of this investigation. St. Louis encephalitis virus (or a closely related virus) antibodies were detected in samples collected from central and western NYS, suggesting local virus transmission despite a lack of evidence from routine mosquito surveillance. Serologic results demonstrate the value of WTD in NYS as an indicator of arbovirus distribution and recent transmission on a relatively fine spatial scale.

Published

2020

11. Erratum: Evolutionary dynamics and molecular epidemiology of West Nile virus in New York State: 1999-2015.

Author

Bialosuknia SM, Tan Y, Zink SD, Koetzner CA, Maffei JG, Halpin RA, Mueller EA, Novotny M, Shilts M, Fedorova NB, Amedeo P, Das SR, Pickett B, Kramer LD, and Ciota AT

Abstract

[This corrects the article DOI: 10.1093/ve/vez020.].

Published

2019

12. Evolutionary dynamics and molecular epidemiology of West Nile virus in New York State: 1999-2015.

Author

Bialosuknia SM, Tan Y, Zink SD, Koetzner CA, Maffei JG, Halpin RA, Muller E, Novatny M, Shilts M, Fedorova NB, Amedeo P, Das SR, Pickett B, Kramer LD, and Ciota AT

Abstract

Following its introduction into New York State (NYS) in 1999, West Nile virus (WNV; Flavivirus , Flaviviridae ) underwent a rapid expansion throughout the USA and into Canada and Latin America. WNV has been characterized as being evolutionarily stable, with weak geographic structure, a dominance of purifying selection and limited adaptive change. We analyzed all available full-genome WNV sequences, focusing on the 543 available sequences from NYS, which included 495 newly sequenced 2000-15 isolates. In addition, we analyzed deep-sequencing data from 317 of these isolates. While our data are generally in agreement with the limited pace of evolutionary change and broad geographic and temporal mixing identified in other studies, we have identified some important exceptions. Most notably, there are 14 codons which demonstrated evidence of positive selection as determined by multiple models, including some positions with evidence of selection in NYS exclusively. Coincident with increased WNV activity, genotypes possessing one or more of these mutations, designated NY01, NY07, and NY10, have increased in prevalence in recent years and displaced historic strains. In addition, we have found a geographical bias with many of these mutations, which suggests selective pressures and adaptations could be regional. Lastly, our deep-sequencing data suggest both increased overall diversity in avian tissue isolates relative to mosquito isolates and multiple non-synonymous minority variants that are both host-specific and retained over time and space. Together, these data provide novel insight into the evolutionary pressures on WNV and the need for continued genetic surveillance and characterization of emergent strains.

Published

2019

13. Quadraplex qRT-PCR assay for the simultaneous detection of Eastern equine encephalitis virus and West Nile virus.

Author

Zink SD, Jones SA, Maffei JG, and Kramer LD

Subjects

Animals, Brain virology, Culicidae virology, Encephalitis Virus, Eastern Equine genetics, Environmental Monitoring, Female, Insect Vectors virology, Mammals, Virology methods, West Nile virus genetics, Encephalitis Virus, Eastern Equine isolation & purification, Real-Time Polymerase Chain Reaction methods, West Nile virus isolation & purification

Abstract

In order to increase testing throughput and reduce cost, we developed a multiplex real-time assay that identifies both Eastern equine encephalitis virus and West Nile virus. The assay allows for the screening for the presence of both the nonstructural and envelope genes of both viruses simultaneously allowing for confirmatory testing to be done in a single assay. We utilized newly designed primers and probes, each labeled with a unique fluorescent label allowing for differentiation using an ABI 7500 real-time PCR machine. The use of Quanta Biosciences qScript XLT One-Step RT-qPCR® Toughmix allowed for a quadraplex assay without loss of sensitivity when compared to the previously run singleplex reaction as seen with viral RNA PFU control dilution series. There was no cross reactivity between the viruses within the reaction, and upon utilization of the assay during surveillance, there was no cross reactivity with other historically encountered arthropod-borne viruses. The results from the quantitative Reverse Transcriptase - Polymerase Chain Reaction were comparable to those achieved by cell culture which was performed on a subset of the field mosquito pools screened during the 2012 surveillance season. The multiplex assay resulted in savings in both time and resources for the lab and faster turn-around of results., (© 2013.)

Published

2013

14. Phylogenetic and evolutionary analyses of St. Louis encephalitis virus genomes.

Author

Baillie GJ, Kolokotronis SO, Waltari E, Maffei JG, Kramer LD, and Perkins SL

Subjects

Bayes Theorem, Genetic Variation, Glycosylation, Likelihood Functions, Open Reading Frames genetics, Recombination, Genetic genetics, Selection, Genetic, Sequence Analysis, DNA, Time Factors, Viral Envelope Proteins metabolism, Encephalitis Virus, St. Louis genetics, Evolution, Molecular, Genome, Viral genetics, Phylogeny

Abstract

St. Louis encephalitis virus belongs to the Japanese encephalitis virus serocomplex of the genus Flavivirus, family Flaviviridae. Since the first known epidemic in 1933, the virus has been isolated from a variety of geographical, temporal, and host origins. We have sequenced 10,236 nucleotides of the open reading frame (93.6% of the full-length genome) of 23 of these strains, and have used the sequences to conduct phylogenetic analyses, in order to investigate the forces shaping the evolution of St. Louis encephalitis virus. Contrary to previous reports, we found little evidence for recombination in these isolates. Most of the amino acid sites in the SLEV polyprotein appeared to be under negative selection, with some sites evolving neutrally, and a small number under positive selection. The strongest signal for positive selection was evident in the N-linked glycosylation site of the envelope protein. Intra-strain sequence variability within strains was observed at this site, and analyses suggested that it is under selection in vitro. Furthermore, using heterochronous sequence data, we estimated the most recent expansion of St. Louis encephalitis virus in North America to have happened towards the end of the 19th century.

Published

2008

15. Molecular epidemiology of eastern equine encephalitis virus, New York.

Author

Young DS, Kramer LD, Maffei JG, Dusek RJ, Backenson PB, Mores CN, Bernard KA, and Ebel GD

Subjects

Animals, Encephalomyelitis, Eastern Equine epidemiology, Encephalomyelitis, Eastern Equine virology, Genetic Variation, Horses, New York, Phylogeny, Encephalitis Virus, Eastern Equine genetics, Encephalomyelitis, Eastern Equine veterinary, Molecular Epidemiology

Abstract

Perpetuation, overwintering, and extinction of eastern equine encephalitis virus (EEEV) in northern foci are poorly understood. We therefore sought to describe the molecular epidemiology of EEEV in New York State during current and past epizootics. To determine whether EEEV overwinters, is periodically reintroduced, or both, we sequenced the E2 and partial NSP3 coding regions of 42 EEEV isolates from New York State and the Eastern Seaboard of the United States. Our phylogenetic analyses indicated that derived subclades tended to contain southern strains that had been isolated before genetically similar northern strains, suggesting southern to northern migration of EEEV along the Eastern Seaboard. Strong clustering among strains isolated during epizootics in New York from 2003-2005, as well as from 1974-1975, demonstrates that EEEV has overwintered in this focus. This study provides molecular evidence for the introduction of southern EEEV strains to New York, followed by local amplification, perpetuation, and overwintering.

Published

2008

16. Characterization of a small plaque variant of West Nile virus isolated in New York in 2000.

Author

Jia Y, Moudy RM, Dupuis AP 2nd, Ngo KA, Maffei JG, Jerzak GV, Franke MA, Kauffman EB, and Kramer LD

Subjects

Aedes virology, Animals, Bird Diseases virology, Chlorocebus aethiops, Crows virology, Insect Vectors physiology, Insect Vectors virology, New York epidemiology, Temperature, Vero Cells, West Nile Fever epidemiology, West Nile virus classification, West Nile virus physiology, Genetic Variation, Virus Replication physiology, West Nile Fever virology, West Nile virus genetics

Abstract

A small-plaque variant (SP) of West Nile virus (WNV) was isolated in Vero cell culture from kidney tissue of an American crow collected in New York in 2000. The in vitro growth of the SP and parental (WT) strains was characterized in mammalian (Vero), avian (DF-1 and PDE), and mosquito (C6/36) cells. The SP variant replicated less efficiently than did the WT in Vero cells. In avian cells, SP growth was severely restricted at high temperatures, suggesting that the variant is temperature sensitive. In mosquito cells, growth of SP and WT was similar, but in vivo in Culex pipiens (L.) there were substantial differences. Relative to WT, SP exhibited reduced replication following intrathoracic inoculation and lower infection, dissemination, and transmission rates following oral infection. Analysis of the full length sequence of the SP variant identified sequence differences which led to only two amino acid substitutions relative to WT, prM P54S and NS2A V61A.

Published

2007

17. Cell-specific adaptation of two flaviviruses following serial passage in mosquito cell culture.

Author

Ciota AT, Lovelace AO, Ngo KA, Le AN, Maffei JG, Franke MA, Payne AF, Jones SA, Kauffman EB, and Kramer LD

Subjects

Animals, Cells, Cultured, Encephalitis Virus, St. Louis growth & development, Encephalitis Virus, St. Louis immunology, Evolution, Molecular, Flavivirus genetics, Flavivirus growth & development, Molecular Sequence Data, West Nile virus growth & development, West Nile virus immunology, Adaptation, Physiological physiology, Culicidae cytology, Flavivirus physiology

Abstract

West Nile Virus (WNV) is a mosquito-borne flavivirus that was introduced into the U.S. in the New York City area in 1999. Despite its successful establishment and rapid spread in a naive environment, WNV has undergone limited evolution since its introduction. This evolutionary stability has been attributed to compromises made to permit alternating cycles of viral replication in vertebrate hosts and arthropod vectors. Outbreaks of a close relative of WNV, St. Louis encephalitis virus (SLEV), occur in the U.S. periodically and are also characterized by limited genetic change overtime. We measured both phenotypic and genotypic changes in WNV and SLEV serially passaged in mosquito cell culture in order to clarify the role of an individual host cell type in flavivirus adaptation and evolution. Genetic changes in passaged WNV and SLEV were minimal but led to increased relative fitness and replicative ability of the virus in the homologous cell line C6/36 mosquito cells. Similar increases were not measured in the heterologous cell line DF-1 avian cells. These phenotypic changes are consistent with the concept of cell-specific adaptation in flaviviruses.

Published

2007

18. Isolation of Bunyamwera serogroup viruses (Bunyaviridae, Orthobunyavirus) in New York state.

Author

Ngo KA, Maffei JG, Dupuis AP 2nd, Kauffman EB, Backenson PB, and Kramer LD

Subjects

Animals, Bunyamwera virus genetics, Chlorocebus aethiops, DNA Primers, Female, Geography, New York, Vero Cells, Bunyamwera virus isolation & purification, Culicidae virology, Insect Vectors virology, Reverse Transcriptase Polymerase Chain Reaction methods

Abstract

During routine arbovirus surveillance from 2000 to 2004 in New York state (NYS), 14,788 mosquito pools making up 36 species and nine genera were inoculated onto Vero cell cultures to test for abroad spectrum of viruses. Forty-six percent of viruses isolated in cell culture from species, excluding Culex pipiens L. and Culex restuans Theobald, were identified as Bunyamwera serogroup viruses. Here, we report the distribution and level of Bunyamwera activity in NYS detected during this period. We developed specific primers for Cache Valley virus (family Bunyaviridae, genus Orthobunyavirus, CVV) and Potosi virus (family Bunyaviridae, genus Orthobunyavirus, POTV), to facilitate rapid molecular identification of these viruses. Viral RNA was detected in 12 mosquito species by reverse transcription-polymerase chain reaction, with the majority isolated from Aedes trivittatus (Coquillet). We report the first POTV isolation in NYS and describe the development of specific primers to identify both POTV and CVV.

Published

2006

19. West Nile virus infection in birds and mosquitoes, New York State, 2000.

Author

Bernard KA, Maffei JG, Jones SA, Kauffman EB, Ebel G, Dupuis AP 2nd, Ngo KA, Nicholas DC, Young DM, Shi PY, Kulasekera VL, Eidson M, White DJ, Stone WB, and Kramer LD

Subjects

Aedes virology, Animals, Anopheles virology, Bird Diseases mortality, Birds classification, Culex virology, Humans, New York epidemiology, Songbirds classification, Songbirds virology, West Nile Fever epidemiology, West Nile Fever virology, West Nile virus genetics, Bird Diseases virology, Birds virology, Culicidae virology, Disease Reservoirs veterinary, Insect Vectors virology, West Nile Fever veterinary, West Nile virus isolation & purification

Abstract

West Nile (WN) virus was found throughout New York State in 2000, with the epicenter in New York City and surrounding counties. We tested 3,403 dead birds and 9,954 mosquito pools for WN virus during the transmission season. Sixty-three avian species, representing 30 families and 14 orders, tested positive for WN virus. The highest proportion of dead birds that tested positive for WN virus was in American Crows in the epicenter (67% positive, n=907). Eight mosquito species, representing four genera, were positive for WN virus. The minimum infection rate per 1,000 mosquitoes (MIR) was highest for Culex pipiens in the epicenter: 3.53 for the entire season and 7.49 for the peak week of August 13. Staten Island had the highest MIR (11.42 for Cx. pipiens), which was associated with the highest proportion of dead American Crows that tested positive for WN virus (92%, n=48) and the highest number of human cases (n=10).

Published

2001