Mutations in the CREBBP (CREB-binding protein gene) cause Rubinstein-Taybi syndrome (RSTS). At present, however, genetic testing of CREBBP is not commonly applied in clinical settings because the currently available assays are technically and financially demanding, mainly because of the size of the gene. In the present study, we took advantage of a highly sensitive and specific, automated denaturing high-performance liquid chromatography (DHPLC) technique. First, we developed a DHPLC-based protocol to analyze the entire coding region of CREBBP. Second, we analyzed genetic samples from 21 RSTS patients using DHPLC. The coding region was amplified by 41 primer pairs, all of which have the same cycling conditions, aliquoted on a 96-well format PCR plate. In this manner, all the exons were simultaneously amplified using a single block in a PCR machine. We then wrote a computer script to analyze all the PCR amplicons generated from various portions of the CREBBP gene in a serial manner at optimized conditions determined individually for each amplicon. Heterozygous CREBBP mutations were identified in 12 of the 21 patients: five frameshift mutations, three nonsense mutations, two splice-site mutations, and two missense mutations. The resulting detection rate of 57% was comparable to the outcome of previous studies. The relatively high detection rate in the present study demonstrates the enhanced sensitivity of the DHPLC-based mutation analysis, as exemplified by mutation analyses of other genes. The implementation of similar methodologies for other dysmorphic syndromes will help medical geneticists to confirm their clinical impressions and to provide accurate genetic counseling for patients and their families.