We have performed a quantitative analysis of the pigment composition of different pigment-protein complexes present in the membrane of the green sulfur bacterium Prosthecochloris aestuarii, using the resolving power of reversed-phase high-performance liquid chromatography. The most purified photochemically active complexes contained only carotenoids (OH-chlorobactene and rhodopin), bacteriochlorophyll a and a chlorophyllous pigment with absorption maxima at 663 and 433 nm, like bacteriochlorophyll c. However, the lipophilicity of this pigment, labeled BChl 663, is quite high and indicates that it contains 5–6 additional methylene groups compared to the BChl c homologue known as most lipophilic. Comparison of the BChl 663 content of various pigment-protein complexes indicates that BChl 663 is present in an amount of 10–15 molecules per reaction center. BChl 663 absorbs at 670 nm in vivo, with a specific extinction coefficient of 85 (±10) mM −1 · cm −1. In view of the evidence that the primary electron acceptor in P. aestuarii is a pigment with absorption maximum at 670 nm (Nuijs, A.M., Vasmel, H., Joppe, H.L.P., Duysens, L.N.M. and Amesz, J. (1985) Biochim. Biophys. Acta 807, 24–34) a direct consequence of these experiments is the fact that only BChl 663 can be a likely candidate for the role of primary electron acceptor as no other pigments absorbing around 670 nm (e.g., bacteriopheophytin c) are present in a photochemically active pigment-protein complex derived from the membrane of this green bacterium.