Avian infectious bronchitis (IB) caused by the IB virus (IBV) is an acute, highly contagious infectious disease in chickens around the world. Live IB vaccine strain could be acquired because its pathogencity for chickens has lowered after attenuation by continuous serial passages in chicken embryos (CEs). However, its pathogencity for CEs was increased. To investigate the mechanism for pathogenicity of the attenuated IB virus in CEs and virulence related possible molecular determinants, wild strain (TW2575/98w) and vaccine strain (TW2575/98vac) were inoculated into CEs, respectively. It has proved that the attenuated vaccine strains are more pathogenic than the wild virus strains. TW2575/98vac has higher embryonic leathal rate and early death as well as lower dwarfing effect for CEs. Meanwhile, replication efficiency and yield of vaccine strain in CEs are higher. There were no significant differences in the pathological changes in CE infected by both wild and attenuated strains. Detected by immunohistochemistry, the viral antigens of both strains could be found mainly at the epithelium of the chorioallantoic membrane, lung parabronchi, renal tubules and some in the spleen and heart serosa. These findings indicated that the early embryonic death and dwarfing is not related to the change in cell/tissue tropism of the vaccine strain, rather on the early infection establishment and viral load. Full length of viral genomes from TW2575/98w and TW2575/98vac were determined and subject to comparisons with gene sequences of wild strains and vaccine strains from the other IB viruses in Taiwan and other countries. In TW2575/98vac, there are 30 varied amino acid residues resulting from 44 mutated nucleotides compared to TW2575/98w. However, all of the molecular variations lead to attenuation, found in TW2575/98, were not observed consistently in the other IBVs (TW2296/95, Ark/Ark-DPI/81, the Massachusetts strain, GA98/CWL0470/98, and CK/CH/LDL/97I) and vice versa. After further comparisons and evaluations from three aspects: (1) longitudinal analysis on the timing of variations appeared in specific homologous strain passages, (2) horizontal evaluations with the amino acid changes between wild and vaccine strains among the other 5 IBVs, and (3) inspection on alterations in the chemical characteristics of substituted amino acid residues in viral proteins, four amino acid substitutions [V342D in P87, S1493P and P2025S in HD1, as well as F2308Y in HD1(P41)] were selected as highly possible candidates for successful TW2575/98w attenuation. Furthermore, the results in the study imply that molecular variations, which contribute to the successful attenuation of different IBVs, are diverse and not restricted to a fixed pattern or specific amino acid substitutions in viral proteins. Finally, it suggests that the vaccine strain inoculated titer might be adjusted to an optimal low level for in ovo vaccination to overcome the poor hatching rate for its higher virulence to CEs.