The Bhopalator 149“6x9” b2861 The Cell Language Theory: Connecting Mind and Matterdynamic mechanism that is based on the concept of the conformon first
proposed in 1972 [6–8, 14, 65, 143–145].3.3.10 Proton-Transfer Chains/Complexes as the Fourth-Phase
Water Structures of Ling and Pollack
The mitochondrial inner membrane is the site of the interaction among
three different kinds of charged particles — electrons (e-), protons (H+), and
phosphorons (j–), as indicated in Figure 3.18 and summarized in Table 3.18.
There are specific enzyme complexes that catalyze the e- transfer reactions
(i.e., Complexes I, II, III, and IV) and j– transfer reactions (i.e., Complex
V; see Figure 3.32). But, to the best of my knowledge, no one has yet iso-
lated any independent proteins that are known to catalyze H+ transfer reac-
tions in the mitochondrial inner membrane, similar to the ETCs and the
phosphoron-transfer complex that exist as separate entities (Figure 3.34).
There are at least three possible explanations for this observation:(i) Although no one has yet isolated the PTC as predicted in [144], it
may eventually be identified and isolated in the future;
(ii) PTC is a part of ETCs and/or the phosphoron-transfer complex as
exemplified by the D- and K-water channels in cytochrome c oxidase
(Figure 3.40(a)), and
(iii) PTC is a non-proteinaceous molecular complex such as the Ling–
Pollack (LP) water structures postulated to exist in in the fourth-
phase water (Section 2.13).If the Benveniste–Montagnier experiments (defined in Section 2.13.2)
can be shown to be real and not the results of some as-yet-unidentified
error, such results would favor possibility (iii), leading to a further gener-
alization that Ling–Pollack water structures act as a new class of catalysts
operating in living systems, catalyzing not only proton-transfer reactions
(as originally thought), but also other chemical reactions such as immune
reactions [114] and DNA synthesis [115]. If this speculation turns out to
be true, we would be able to conclude thatLing–Pollack water structures catalyze the Benveniste–Montagnier
reactions. (3.46)b2861_Ch-03.indd 149 17-10-2017 11:46:55 AM