A molecularly cloned, tissue culture-adapted infectious bursal disease virus (BD-3tc) was generated from a very virulent strain by the reverse genetics approach following site-directed mutagenesis (Q253H and A284T in VP2). The pathogenicity of BD-3tc was tested in commercial chickens. The wild-type strain (BD-3wt) and the molecularly cloned parental strain (BD-3mc) were included for comparison. The subclinical course of the disease, with delayed and milder pathological lesions followed by quick follicular regeneration in the bursa of Fabricius in BD-3tc-inoculated birds, suggested that these amino acid substitutions made BD-3tc partially attenuated. However, severe bursa atrophy was observed at 14 days after inoculation. Reverse transcription-polymerase chain reaction coupled with restriction enzyme analysis revealed that both point mutations in BD-3tc had reverted 14 days after inoculation. Further investigations demonstrated that the codon for amino acid at position 284 had already reverted to the wild-type phenotype (T284A) 3 days after inoculation.