We previously reported that poly(N-isopropylacrylamide) grafted with Peptide 1 (-GLRRASLG) and poly(ethylene glycol) changed its physical properties in response to an intracellular protein phosphorylation signal, protein kinase A (PKA) (Katayama, Y. et al. (2001) Macromolecules 34, 905). In this study, we investigated the effect of changing peptide structure on the lower critical solution temperature (LCST) of peptide-polymer conjugates, before and after phosphorylation with PKA. For Peptide 2 (Ac-LRRASL-), which has a formal net charge of +2 at physiological pH, the LCST of the conjugate decreased on phosphorylation. In contrast, the LCSTs of the conjugates with Peptide 3 (-ALRRASLE) and Peptide 4 (Ac-DWDALRRASL-), which have neutral net charges, were greatly increased. This suggests that the LCST of the polymer was mainly governed by two factors: the change in hydration around the polymer chain and the interpeptide electrostatic repulsion, resulting from phosphorylation. These polymers have potential for use as drug capsules that respond to cellular conditions.