Since the RNase H domain has been shown to pro foundly affect the

Since the RNase H domain has been shown to pro foundly affect the functions of the polymerase domain, our findings suggest that the C terminal part of RT from subtype C viruses influences the polymerase domain of subtype B RT in the chimeric constructs. This effect results in a decreased efficiency of reverse transcription in the virions and RTCs of recombinant viruses. merely Therefore, the observed high level of cDNA accumulation in subtype B virus Inhibitors,Modulators,Libraries probably involves a cooperative effect of both the N and C terminal ends of the RT molecule, whereas the presence of the whole RT from subtype C virus, as well as chimeric B C RT resulted in low level of cDNA accumulation. Our results also showed that the efficiency of DNA integration for viruses carrying subtype C pol fragments is always lower than those with pol from subtype B iso lates, even though the integrase gene were identical.

Inhibitors,Modulators,Libraries This observation, together with published data demon strating the similarity between the integrase of B and C subtypes, suggests that the differences in the level of integration may be an outcome of the differences in the accumulation of integration competent reverse tran scription products. The RT may still be playing a major role in contributing to the differences observed in early replication events and the overall level of replication between subtype B and C viruses. Moreover, we expect that the delayed reverse transcription, related viral Inhibitors,Modulators,Libraries uncoating or other pre integration events of subtype C viruses may extend the presence of the RTCs in the cytoplasm.

Since RTCs undergo proteasome mediated degradation in the cytoplasm, an extended Inhibitors,Modulators,Libraries presence of subtype C RTCs in this compartment may increase the risk of their degradation in the proteasoms, thereby decreasing the level of viral DNA integration and overall viral replicative capacity. Our analysis of the RT sequences of clade B and C viruses did not Inhibitors,Modulators,Libraries reveal any clade specific AA differences in their functionally important regions. The AA motifs of the polymerase domain, responsible for polymerase activity, primer grip, proper dNTP selleck bio positioning, and coordination of triphosphate moiety, as well as catalyti cally important residues in the RNase H domain are identical in all the studied isolates from both subtypes. However, the distinct subtype specific AA changes in functionally non important regions may indirectly affect the RT function. Quan and colleagues suggested that typical for subtype C viruses T39KE and Q207ER substitutions located in the middle of the aA and aF helices can potentially disturb structures in the finger subdomain of RT.

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