Dermanyssus gallinae, the poultry red mite, is an obligatory
blood-sucking ectoparasite. The genetic diversity of D. gallinae has been
examined in some countries, but so far not in Asian countries. Here, we sequenced a part
of the mitochondrial cytochrome oxidase subunit I (COI) and16S rRNA genes and nuclear
internal transcribed spacers (ITS) region in 239 mite samples collected from 40
prefectures throughout Japan. The COI and 16S rRNA nucleotide sequences were classified
into 28 and 26 haplotypes, respectively. In phylogenetic trees, the haplotypes clustered
into 2 haplogroups corresponding to haplogroups A and B, which were previously reported.
Haplogroups A and B were further subdivided into sub-haplogroups AJ1 and AJ2, and BJ1 and
BJ2, respectively. In both trees, the sequences of haplotypes in AJ1 and BJ2 were
relatively distant from those reported in other countries, while some sequences in AJ2 and
BJ1 were identical to those in Europe. In addition, the ITS sequences were classified into
two sequences, and both sequences were closely related to the sequences found in European
countries. These findings indicate a possibility of international oversea transmission of
D. gallinae.
Poultry red mite (PRM,
Dermanyssus gallinae) is a blood-sucking ectoparasite as well as a
possible vector of several avian pathogens. In this study, to define the role of PRM in
the prevalence of avian infectious agents, we used polymerase chain reaction (PCR) to
check for the presence of seven pathogens: Avipox virus (APV), Fowl Adenovirus (FAdV),
Marek’s disease virus (MDV), Erysipelothrix rhusiopathiae (ER),
Salmonella enterica (SE), Mycoplasma synoviae (MS) and
Mycoplasma gallisepticum (MG). A total of 159 PRM samples collected
between 2004 and 2012 from 142 chicken farms in 38 prefectures in Japan were examined. APV
DNA was detected in 22 samples (13.8%), 19 of which were wild-type APV. 16S ribosomal RNA
(16S rRNA) of MS was detected in 15 samples (9.4%), and the mgc2 gene of
MG was detected in 2 samples (1.3%). Eight of 15 MS 16S rRNA sequences differed from the
vaccine sequence, indicating they were wild-type strains, while both of the MG
mgc2 gene sequences detected were identical to the vaccine sequences.
Of these avian pathogen-positive mite samples, three were positive for both wild-types of
APV and MS. On the other hand, the DNAs of ER, SE, FAdV and MDV were not detected in any
samples. These findings indicated that PRM can harbor the wild-type pathogens and might
play a role as a vector in spreading these diseases in farms.
Japanese quail (Coturnix japonica) are farmed worldwide as poultry. Quail have been used as experimental animals in various scientific fields, but their immunological characteristics have not been well characterized. In this study, to develop a method for analyzing the innate immune response of quail to infectious pathogens, we determined the nucleotide sequences of major interleukins (IL) and Toll-like receptor (TLR)-7 of quail and developed quantitative real-time PCR assays. The nucleotide sequences of quail IL-1β, IL-4, IL-6, IL-8, IL-10, IL-12a, IL-12b, IL-13, IL-18, and TLR-7 were determined based on the sequences of the chicken genes. Specific primers for each of these genes and previously reported interferon (IFN)-α, IFN-γ, and IL-2 genes were designed for quantitative real-time PCR. Standard curves for quantification were established using serial dilutions of external standard plasmids containing real-time PCR products. Then, real-time PCR was performed to monitor the kinetics of quail immune-related gene expression induced in splenocytes stimulated with concanavalin A. After amplification, the r(2) values of the standard curves for all target genes were above 0.980. Melting analysis of real-time PCR revealed specific amplification of each gene that could be visualized clearly as a single peak of melting temperature in a melt peak chart. These data show that the mRNA expressions of quail immune-related genes can be accurately quantified using this real-time PCR assay. In this study, we showed the nucleotide sequences of several quail cytokine mRNA and constructed the quantitative real-time PCR for quail immune-related genes.
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