The gene expression for phasins (PhaP), which are predominantly polyhydroxyalkanoates (PHAs) granule-associated proteins, is regulated by a repressor protein of PhaR through the dual binding abilities of PhaR to the target DNAs and the granules. In this study, the binding functions of PhaR to poly[(R)-3-hydroxybutyrate] (P(3HB)) were investigated quantitatively by using a quartz crystal microbalance (QCM) technique. Adsorption of PhaR onto a melt-crystallized film of P(3HB) (cr-P(3HB)) was detected as a negative frequency shift of the QCM. The time course of the frequency changes observed for PhaR adsorption was composed of a quick frequency decrease at an initial stage and a subsequent slower frequency decrease for several hours, indicating multilayered adsorption of PhaR molecules onto cr-P(3HB). The initial rapid adsorption, which corresponds to direct adsorption of PhaR molecules onto a bare surface of cr-P(3HB), was a diffusion-controlled process. Strong interactions between PhaR and cr-P(3HB) were also observed as apparently irreversible adsorption. The comparative QCM measurement of PhaR adsorption onto various types of polymers with different aliphatic chemical structures revealed that PhaR was adsorbed onto the surfaces of polymers, including cr-P(3HB), mainly by nonspecific hydrophobic interactions. These results illustrate the high affinity and low specificity for adsorption of PhaR to P(3HB).