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C-terminal cleavage of the LH1 α-polypeptide in the Sr 2+ -cultured Thermochromatium tepidum.

The light-harvesting 1 reaction center (LH1-RC) complex in the thermophilic purple sulfur bacterium Thermochromatium (Tch.) tepidum binds Ca ions as cofactors, and Ca-binding is largely involved in its characteristic Q y absorption at 915 nm and enhanced thermostability. Ca2+ can be biosynthetically replaced by Sr2+ in growing cultures of Tch. tepidum. However, the resulting Sr2+ -substituted LH1-RC complexes in such cells do not display the absorption maximum and thermostability of those from Ca2+ -grown cells, signaling that inherent structural differences exist in the LH1 complexes between the Ca2+ - and Sr2+ -cultured cells. In this study, we examined the effects of the biosynthetic Sr2+ -substitution and limited proteolysis on the spectral properties and thermostability of the Tch. tepidum LH1-RC complex. Preferential truncation of two consecutive, positively charged Lys residues at the C-terminus of the LH1 α-polypeptide was observed for the Sr2+ -cultured cells. A proportion of the truncated LH1 α-polypeptide increased during repeated subculturing in the Sr2+ -substituted medium. This result suggests that the truncation is a biochemical adaptation to reduce the electrostatic interactions and/or steric repulsion at the C-terminus when Sr2+ substitutes for Ca2+ in the LH1 complex. Limited proteolysis of the native Ca2+ -LH1 complex with lysyl protease revealed selective truncations at the Lys residues in both C- and N-terminal extensions of the α- and β-polypeptides. The spectral properties and thermostability of the partially digested native LH1-RC complexes were similar to those of the biosynthetically Sr2+ -substituted LH1-RC complexes in their Ca2+ -bound forms. Based on these findings, we propose that the C-terminal domain of the LH1 α-polypeptide plays important roles in retaining proper structure and function of the LH1-RC complex in Tch. tepidum.

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