Sn. Datta et B. Mallik, INDO STUDY ON THE COMPARISON OF THE NONBONDED ENVIRONMENTS OF Q(I) (Q(A)) AND Q(II) (Q(B)) IN PSU, JOURNAL OF PHYSICAL CHEMISTRY B, 101(20), 1997, pp. 4171-4174
INDO studies have been carried out for the elucidation of the differen
ce in the nonbonded polarizable environment of Q(I) (Q(A)) and Q(II) (
Q(B)) in thylakoid discs in chloroplast (in bacteria). The free energy
of reduction of Q(II) by Q(I)(-) (-0.13 eV in vivo) has been explaine
d by considering a more polar environment for Q(I). Three environmenta
l features have been accommodated. Each plastoquinone is hydrogen bond
ed to the imidazole ring of a histidine molecule that serves as the mo
st proximate environment. The RC protein surrounding the plastoquinone
has been viewed as a dielectric continuum. As the most logical way of
accounting for the difference in the protein environment of Q(I) and
Q(II), two additional peptide fragments have been symmetrically placed
on the two sides of the plastoquinone ring plane of Q(I). Our calcula
tion indicates that the protein environment is closer to Q(I) than to
Q(II). The proximity indicates that Q(I) must be tightly bound as its
escape would be prohibited by steric effect, and Q(II) would be held m
uch less tightly within a larger cage. If no new bond is formed while
Q(II) acquires an electron, the product Q(II)(-) would be bound to the
protein cage more strongly than Q(II) by an amount of the order of 1
eV.