Plant bZIP transcription factors play crucial roles in multiple biological processes.However,little is known about the sorghum bZIP gene family although the sorghum genome has been completely sequenced.In this study,we have carried out a genome-wide identification and characterization of this gene family in sorghum.Our data show that the genome encodes at least 92 bZIP transcription factors.These bZIP genes have been expanded mainly by segmental duplication.Such an expansion mechanism has also been observed in rice,arabidopsis and many other plant organisms,suggesting a common expansion mode of this gene family in plants.Further investigation shows that most of the bZIP members have been present in the most recent common ancestor of sorghum and rice and the major expansion would occur before the sorghum-rice split era.Although these bZIP genes have been duplicated with a long history,they exhibited limited functional divergence as shown by nonsynonymous substitutions (Ka)/synonymous substitutions (Ks) analyses.Their retention was mainly due to the high percentages of expression divergence.Our data also showed that this gene family might play a role in multiple developmental stages and tissues and might be regarded as important regulators of various abiotic stresses and sugar signaling. Plant bZIP transcription factors play crucial roles in multiple biological processes. However, little is known about the sorghum bZIP gene family although the sorghum genome has been completely sequenced. In this study, we have carried out a genome-wide identification and characterization of this gene family in sorghum. Our data show that the genome encodes at least 92 bZIP transcription factors. These bZIP genes have been expanded mainly by segmental duplication. Us an expansion mechanism has also been observed in rice, arabidopsis and many other plant organisms, suggesting a common expansion mode of this gene family in plants. Future investigations show that most of the bZIP members have been present in the most recent common ancestor of sorghum and rice and the major expansion would occur before the sorghum-rice split era .Although these bZIP genes have was duplicated with a long history, they exhibit limited functional divergence as shown by nonsynonymous substitutions (Ka) / synonymous su bstitutions (Ks) analyzes their retention was mainly due to the high percentages of expression divergence.Our data also showed that this gene family might play a role in multiple developmental stages and tissues and might be considered as important regulators of various abiotic stresses and sugar signaling.