Acid-treatment facilitates PQQ detection by electron ionization mass spectroscopy with a molecular ion at M/e 330 and a base ion formed by triple decarboxylation at M/e 198. Other ions found probably arise through acid-catalyzed tautomeric lactonization of PQQ to PQQ-lactone (PQQL) with subsequent oxidation of PQQL and reduction of PQQ. We propose that a carboxyl group, presumably the 9-carboxyl, attacks a double bond in PQQ, reversibly converting the 4,5-orthoquinone into an 4,5-enediol and forming an isomeric lactone, PQQL, of 330 daltons. The masking of carbonyls may explain the low reactivity of PQQ with carbonyl reagents in acid. Acid-promoted tautomeric lactonization with carbonyl-masking is known to occur with fluoresceins, phenolphthalein and other compounds, but has not been recognized before with PQQ. Acid-treated PQQ demonstrates molecular and other ions derived from reduced PQQ (PQQ(2H] or its lactone at M/e 332 with a base ion at M/e 200. There is compelling evidence for a dehydrogenated lactone, PQQ(-2H)L), at M/e 328 with a base ion at M/e 196. We suggest that PQQ, in tautomeric equilibrium with PQQL, oxidizes PQQL to PQQ(-2H)L (328 daltons), with its concurrent reduction to PQQ(2H) (332 daltons). With acidified D2O, PQQ shows deuterated products with ions at M/e values consistent with lactonization and oxidation-reduction. An analytically useful quinoxaline adduct, formed from PQQ and 2,3-diaminonaphthalene (PQQ-DAN) of 452 daltons, also undergoes acid-tautomerization-lactonization and oxidation-reduction similar to PQQ showing molecular ions at M/e 450, 452 and 454 and decarboxylation-derived strong (base) ions at M/e 318, 320 and 322.(ABSTRACT TRUNCATED AT 250 WORDS)