Development of the first conventional and real-time polymerase chain reaction (PCR) tests for the diagnoses of duck circovirus (DuCV) infections is described. Both tests amplified a 230 bp fragment specific to the DuCV Rep gene. Although both tests had the same detection limit (13 x 10(3) target DNA/ml) when the target DNA was diluted in water, the detection limit of the real-time test (13 x 10(4) target DNA/ml) was 10-fold less than the conventional test (13 x 10(5) target DNA/ml) when the amplifications were performed in the presence of cellular DNA. Using the conventional PCR test, DuCV DNA was detected in 85 (84%) of 101 bursa of Fabricius samples from dead or sick ducks, aged between 1 and 12 weeks, and in samples from 35 (94%) of 37 flocks. Application of the SYBR Green-based real-time PCR test to 54 selected bursa of Fabricius samples indicated that more samples were positive by real-time PCR than by conventional PCR, allowed the numbers of genome copies to be estimated and showed that some bursa of Fabricius samples contained over 10(13) genome copies/g tissue. Although DuCV infections were detected in birds aged from 1 to 12 weeks, higher virus DNA levels were detected in ducks aged older than 5 weeks than in ducks younger than 5 weeks. An in situ hybridization method for the detection of DuCV in histological samples was also developed. Additional work is required to determine the clinicopathological significance of DuCV infections.
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Article Synopsis
- Ducks in Thailand are affected by duck circovirus (DuCV), leading to symptoms like feather abnormalities, weight loss, and poor growth, prompting a study to investigate the presence and genetic characteristics of the virus in local flocks.
- Tissue samples from affected ducks were collected for histopathological examination and molecular analysis to confirm DuCV infection and check for coinfections with other pathogens.
- The study found that DuCV isolates from Thailand belong to genotype I, with sub-genotypes identified, and revealed genetic variations that correspond with other known infections, indicating a complex interaction with multiple co-infections in affected ducks.
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