Whole-exome sequencing of a patient with intellectual disability and without recognisable phenotype yielded a mutation in the intron20 splice donor site of CREBBP. Mutations at different positions within the same intron20 splice donor site were observed in three patients clinically suspected as having Rubinstein-Taybi syndrome (RSTS). All mutations were de novo and likely disease-causing. To investigate a putative difference in splicing between the patient without RSTS phenotype and the three patients with the RSTS phenotype, we analysed the effects of these mutations on splicing of the pre-mRNA of CREBBP. As no RNA of patients was available, we generated a new and improved exon-trap vector, pCDNAGHE, and tested the effect of the various mutations on splicing in vitro. All mutations lead to skipping of exon20. In one of the patients with an RSTS phenotype, there was also some normal splicing detectable. We conclude that the splicing pattern obtained by exon-trapping cannot explain the difference in phenotype between the patient without the RSTS phenotype and the patients with clinical RSTS. Patient or tissue-specific splice effects as well as modifying genes likely will explain the difference in phenotype.