Dimer formation of octaprenyl-diphosphate synthase (IspB) is essential for chain length determination of ubiquinone

Ubiquinone (Q), composed of a quinone core and an isoprenoid side chain, is a key component of the respiratory chain and is an important antioxidant. In Escherichia coli, the side chain of Q-8 is synthesized by octaprenyl-diphosphate synthase, which is encoded by an essential gene, ispB. To determine how IspB regulates the length of the isoprenoid, we constructed 15 ispB mutants and expressed them in E. coli and Saccharomyces cerevisiae. The Y38A and R321V mutants produced Q-6 and Q-7, and the Y38A/R321V double mutant produced Q-5 and Q-6, indicating that these residues are involved in the determination of chain length. E. coli cells (ispB::cat) harboring an Arg-321 mutant were temperature-sensitive for growth, which indicates that Arg-321 is important for thermostability of IspB. Intriguingly, E. coli cells harboring wild-type ispB and the A79Y mutant produced mainly Q-6, although the activity of the enzyme with the A79Y mutation was completely abolished. When a heterodimer of His-tagged wild-type IspB and glutathione S-transferase-tagged IspB(A79Y) was formed, the enzyme produced a shorter length isoprenoid. These results indicate that although the A79Y mutant is functionally inactive, it can regulate activity upon forming a heterodimer with wild-type IspB, and this dimer formation is important for the determination of the isoprenoid chain length.