Isolation and Characterization of the Central Component of the Phycobilisome Core of Nostoc sp.

Abstract

Freshly isolated allophycocyanin is recovered from linear sucrose gradients made in 0.75 molar potassium phosphate buffer (pH 7.0) in three sizes: 19s, 10.3s, and 5.5s. The largest aggregate is a complex of a 680 nm fluorescing allophycocyanin I in the form (αβ)₃γ, where γ is the 95 kilodalton (kD) polypeptide, and two 660 nanometer fluorescing allophycocyanin II (αβ)₃ molecules; the complex, stabilized in high phosphate concentrations, fluoresces maximally at 675 nanometers. The 10.3s fraction is a hexamer of allophycocyanin of the 660 nanometer fluorescing type, perhaps attached through two polypeptides of 46 kD and 44 kD. The 5.5s component of the allophycocyanin pool is the usual trimeric form of allophycocyanin (αβ)₃. A similar 19s fraction is the major component of allophycocyanin I isolated under optimum conditions in the presence of the protease inhibitor, phenylmethylsulfonylfluoride. This 19s fraction is apparently a central component of the core of the phycobilisome with its 95 kD polypeptide the attachment point of the phycobilisome and membrane. The 95 kD polypeptide has both long wavelength absorption and fluorescence bands which seem to account for the long wavelength fluorescence properties of allophycocyanin I.