Since May 2015, severe outbreaks of hepatitis-hydropericardium syndrome (HHS) associated with infections of fowl aviadenovirus (FAdV) have emerged in broiler chickens in several Chinese provinces. To identify the genotype and gain a better understanding of the genetic properties of the FAdV strains responsible for the recent HHS outbreaks in China, the complete genome sequences of five isolates from outbreaks of HHS in broiler chickens in five provinces were determined. The results demonstrated that a novel fowl aviadenovirus 4 (FAdV-4) genotype was epidemic in China. To investigate the molecular characteristics of these Chinese FAdV-4 isolates, their genome contents were compared with those of reported pathogenic and non-pathogenic FAdV-4 strains. The comparative analysis revealed that the novel Chinese FAdV-4 isolates contain various genomic deletions and multiple distinct amino-acid mutations in their major structural genes. Two additional putative genetic virulence markers in the fiber 2 gene were identified. These findings confirmed some of the genetic differences between the pathogenic and non-pathogenic FAdV-4 isolates. The data presented in this report will enhance the current understanding of the molecular epidemiology and genetic diversity of FAdV-4 isolates in China and will provide additional insight into the critical factors that determine the pathogenicity of FAdV-4 strains. Finally, the emergence of this novel and highly pathogenic FAdV-4 genotype emphasizes that preventive measures against FAdV-4 infections on poultry farms should be implemented in China.
To determine prevalence of Cyclospora cayetanensis infection in Henan, China, we conducted a study of 11,554 hospital patients. Prevalence was 0.70% (95% confidence interval 0.70% ± 0.15%), with all age groups infected. Most cases were found in the summer. Minor sequence polymorphisms were observed in the 18S rRNA gene of 35 isolates characterized.
A quantitative PCR (qPCR) assay using SYBR Green I was developed based on the published sequence of the gtxA gene from Gallibacterium anatis. This method produced reliable specificity, sensitivity, and repeatability. The detection rate of Gallibacterium in 181 clinical samples was 36.5% (66/181) by qPCR, which was superior to the detection rate of Gallibacterium-specific PCR (0/181) and an isolation and identification assay (18.2% or 33/181). No association was found between the prevalence of Gallibacterium and the age of the chickens. Gallibacterium infection was detected in one 4-day-old chicken, showing that infection can occur much earlier than the previously stated fourth week of life. Tissue sample analysis showed that Gallibacterium is mainly located in the trachea and ovaries, based on results from three groups of chicken with different health statuses. Furthermore, a titer analysis suggested that Gallibacterium loads in different organs may correlate with different clinical manifestations of disease. Thus, the qPCR assay developed in the present study is useful for identification and quantitative analysis of gtxA-containing Gallibacterium in various tissue samples from birds and for the assessment of the pathogenic mechanisms of Gallibacterium.
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