The effects of alpha- and beta-cyclodextrins (CDs) on the twisted intramolecular charge transfer (TICT) emission of p-(N,N-diethylamino)benzoic acid (DEABA) in aqueous solution have been investigated by using steady-state and time-resolved fluorescence techniques. The ratio of the TICT emission to the normal emission increases as beta-CD concentration increases, while it decreases significantly upon addition of alpha-CD. This behavior is in accordance with CD dependent decay times of the TICT and normal emissions, indicating the formation of different 1:1 DEABA/CD inclusion complexes. An increased pK(a) value of DEABA in the alpha-CD inclusion complex is determined relative to that of the beta-CD complex. The rise time for the TICT emission increases as the beta-CD concentration increases, whereas no rise time is observed in the case of the alpha-CD complex. These results and the size of the diethylamino group clearly suggest that the orientation of the DEABA in the beta-CD-complex is different from that in the alpha-CD complex; the carboxyl group of DEABA is encapsulated in the alpha-CD cavity, whereas it is exposed to the water phase in the beta-CD complex. The CD dependences of the TICT fluorescence properties demonstrate that the specific hydrogen bonding between the carboxyl group and water plays an important role in the excited-state TICT.