Denise Pesti scite author profile

Chlamydia psittaci is an obligate intracellular bacterium that can cause significant disease among a broad range of hosts. In humans, this organism may cause psittacosis, a respiratory disease that can spread to involve multiple organs, and in rare untreated cases may be fatal. There are ten known genotypes based on sequencing the major outer-membrane protein gene, ompA, of C. psittaci. Each genotype has overlapping host preferences and virulence characteristics. Recent studies have compared C. psittaci among other members of the Chlamydiaceae family and showed that this species frequently switches hosts and has undergone multiple genomic rearrangements. In this study, we sequenced five genomes of C. psittaci strains representing four genotypes, A, B, D and E. Due to the known association of the type III secretion system (T3SS) and polymorphic outer-membrane proteins (Pmps) with host tropism and virulence potential, we performed a comparative analysis of these elements among these five strains along with a representative genome from each of the remaining six genotypes previously sequenced. We found significant genetic variation in the Pmps and tbl3SS genes that may partially explain differences noted in C. psittaci host infection and disease.

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Diagnosis of psittacine beak and feather disease (PBFD) viral infection, avian polyomavirus infection, adenovirus infection and herpesvirus infection in psittacine tissues using DNAin situhybridization

Ramis

Latimer

Niagro

et al. 1994

Avian Pathology

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SUMMARYThe evaluation of the usefulness of DNA probes in a diagnostic setting to identify nuclear inclusions in selected viral infections (psittacine beak and feather disease viral infection, avian polyomavirus infection, adenovirus infection and Pacheco's parrot disease) is reported. A DNA in situ hybridization method was used to detect viral nucleic acid in sections of paraffin-embedded tissues coming from birds naturally and/or experimentally infected. It is concluded that DNA probes used for polyomavirus and adenovirus (FN-23) are able to identify nucleic acid of each virus in the cells with nuclear inclusions, and when used for psittacine beak and feather disease virus (FN-8), and Pacheco's parrot disease virus (FN-49) are able to detect viral nucleic acid in cells with or without inclusions.

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Avian Polyomavirus: An Overview

Ritchie¹,

Niagro²,

Latimer³

et al. 1991

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An Updated Review of Psittacine Beak and Feather Disease

Latimer¹,

Rakich²,

Niagro³

et al. 1991

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Diagnosis of Concurrent Avian Polyomavirus and Psittacine Beak and Feather Disease Virus Infections Using DNA Probes

Latimer¹,

Niagro²,

Campagnoli³

et al. 1993

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Efficacy of an Inactivated Avian Polyomavirus Vaccine

Ritchie¹,

Niagro²,

Latimer³

et al. 1993

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Polyomavirus Infections in Adult Psittacine Birds

Ritchie¹,

Niagro²,

Latimer³

et al. 1991

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ATYPICAL CHLAMYDIACEAE IN WILD POPULATIONS OF HAWKS (BUTEOSPP.) IN CALIFORNIA

Lujan‐Vega

Hawkins

Johnson

et al. 2018

Journal of Zoo and Wildlife Medicine

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Chlamydiaceae bacteria infect many vertebrate hosts, and previous reports based on polymerase chain reaction (PCR) assays and serologic assays that are prone to cross-reaction among chlamydial organisms have been used to describe the prevalence of either DNA fragments or antibodies to Chlamydia spp. in wild raptorial populations. This study reports the PCR-based prevalence of Chlamydiaceae DNA that does not 100% match any avian or mammalian Chlamydiaceae in wild populations of hawks in California Buteo species. In this study, multimucosal swab samples ( n = 291) for quantitative PCR (qPCR) and plasma ( n = 78) for serology were collected from wild hawks. All available plasma samples were negative for antibodies using a C. psittaci-specific elementary body agglutination test (EBA; n = 78). For IgY antibodies all 51 available samples were negative using the indirect immunofluorescent assay. The overall prevalence of Chlamydiaceae DNA detection in wild Buteo species sampled was 1.37% (4/291) via qPCR-based analysis. Two fledgling Swainson's hawks ( Buteo swainsoni) and two juvenile red-tailed hawks ( Buteo jamaicensis) were positive by qPCR-based assay for an atypical chlamydial sequence that did not 100% match any known C. psittaci genotype. Positive swab samples from these four birds were sequenced based on the ompA gene and compared by high-resolution melt analysis with all known avian and mammalian Chlamydiaceae. The amplicon sequence did not 100% match any known avian chlamydial sequence; however, it was most similar (98.6%) to C. psittaci M56, a genotype that is typically found in muskrats and hares. Culture and full genome sequence analysis of Chlamydia spp. isolated from diseased hawks will be necessary to classify this organism and to better understand its epizootiology and potential health impact on wild Buteo populations in California.

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Denise Pesti

Chlamydia psittaci comparative genomics reveals intraspecies variations in the putative outer membrane and type III secretion system genes

Diagnosis of psittacine beak and feather disease (PBFD) viral infection, avian polyomavirus infection, adenovirus infection and herpesvirus infection in psittacine tissues using DNAin situhybridization

Avian Polyomavirus: An Overview

An Updated Review of Psittacine Beak and Feather Disease

Diagnosis of Concurrent Avian Polyomavirus and Psittacine Beak and Feather Disease Virus Infections Using DNA Probes

Efficacy of an Inactivated Avian Polyomavirus Vaccine

Polyomavirus Infections in Adult Psittacine Birds

ATYPICAL CHLAMYDIACEAE IN WILD POPULATIONS OF HAWKS (BUTEOSPP.) IN CALIFORNIA

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