Photosynthetic activity, pigment conversion and D1 protein degradation under high light stress has been investigated in a wild type strain and two xanthophyll cycle mutants (npq1 and npq2) of Chlamydomonas reinhardtii. Wild type cells exhibited the well-known inactivation of photosystem II in high light, which was accompanied by the loss of β-carotene and a concomitant increase of zeaxanthin. Complete degradation of D1 protein was found after 2<space>h of illumination in the presence of chloramphenicol, an inhibitor of chloroplast protein synthesis. The npq1 mutant, which is unable to convert violaxanthin to zeaxanthin, showed a very similar behaviour. For the npq2 mutant, however, which is unable to form violaxanthin from zeaxanthin and thus contains high amounts of zeaxanthin even in low light, photosystem II inactivation was less pronounced. This was paralleled by a much slower D1 protein degradation in chloramphenicol treated cells. Our results support a protective role for zeaxanthin against high light-induced photosystem II inactivation resulting in a slowed-down D1 protein turnover.