Sequence analysis of the thrombospondin-related adhesive protein gene and heat shock protein 70 gene of Babesia gibsoni isolated from dogs in Nanjing, China.

In this study, the thrombospondin-related adhesive protein (TRAP) gene and the heat shock protein 70 (Hsp70) gene of Babesia gibsoni isolated from the naturally infected dog in the Nanjing area were cloned and sequenced. Twenty blood samples were collected from the suspected cases of babesiosis at the animal hospital of Nanjing Agriculture University. Genomic DNA was extracted from the blood samples, and the 18S rDNAs were amplified by PCR to confirm Babesia infection. As a result, 10 cases of Babesia 18S rDNA gene amplification were positive in the 20 blood samples, confirming that the 10 cases were infected with canine Babesia. The TRAP and the Hsp70 gene fragments were amplified from all 10 positive cases. The four isolates, named NJN1, NJN2, NJN3 and NJN4, were sequenced and compared with other isolates in Asian. The similarity of TRAP and Hsp70 gene sequences among four isolates in Nanjing were above 99%. The Nanjing isolates were closely related to isolates from Taiwan and Japan. Indian isolates were different form Chinese and Japanese isolates, despite the very high similarity of the 18s rRNA genes sequence. These results suggest that the TRAP and Hsp70 genes have a reference value for the genetic diversity analysis of Babesia gibsoni.

Altered expression of the mismatch repair genes in DF-1 cells infected with the avian leukosis virus subgroup A.

The absence or deficiency of DNA mismatch repair (MMR) activity results in microsatellite instability (MSI) in cancer. The avian leukosis virus (ALV) causes neoplastic disease in chickens. In this study, the status of MMR, MSI, the cell cycle and apoptosis were detected in DF-1 cells after avian leukosis virus subgroup A infection. Flow cytometry analysis results indicated that there was no significant difference in cell apoptosis between the control and infected groups. The percentage of cells in S and G2 phases were increased in the infected group. MSI and mutation of MSH2 and MLH1 gene exons were absent in DF-1 cells after infection. Levels of MSH2 and MLH1 mRNA were dramatically increased in DF-1 cells after infection. These results demonstrated that ALV RAV-1 infection may promote the expression of MSH2 and MLH1 genes rather than resulting in gene mutations. Mismatch repair functions were normal and may be have relationships with the arrest of S phase and G2 phase.