TY - JOUR
T1 - Lignin dehydrogenative polymerization mechanism
T2 - A poplar cell wall peroxidase directly oxidizes polymer lignin and produces in vitro dehydrogenative polymer rich in β-O-4 linkage
AU - Sasaki, Shinya
AU - Nishida, Tomoaki
AU - Tsutsumi, Yuji
AU - Kondo, Ryuichiro
N1 - Funding Information:
We are grateful to Associate Professor M. Shigematsu, Gifu University, for his kind gift of authentic syringaresinol and useful discussion on the oxidation potentials for monomeric and dimeric lignols. This work was supported by a grant-in-aid for scientific research from the Ministry of Education, Science and Culture of Japan (15380121).
PY - 2004/3/26
Y1 - 2004/3/26
N2 - An investigation was performed to determine whether lignin dehydrogenative polymerization proceeds via radical mediation or direct oxidation by peroxidases. It was found that coniferyl alcohol radical transferred quickly to sinapyl alcohol. The transfer to syringaresinol was slower, however, the transfer to polymeric lignols occurred very slightly. This result suggests that the radical mediator theory does not sufficiently explain the mechanism for dehydrogenative polymerization of lignin. A cationic cell wall peroxidase (CWPO-C) from poplar (Populus alba L.) callus showed a strong substrate preference for sinapyl alcohol and the sinapyl alcohol dimer, syringaresinol. Moreover, CWPO-C was capable of oxidizing high-molecular-weight sinapyl alcohol polymers and ferrocytochrome c. Therefore, the CWPO-C characteristics are important to produce polymer lignin. The results suggest that CWPO-C may be a peroxidase isoenzyme responsible for the lignification of plant cell walls.
AB - An investigation was performed to determine whether lignin dehydrogenative polymerization proceeds via radical mediation or direct oxidation by peroxidases. It was found that coniferyl alcohol radical transferred quickly to sinapyl alcohol. The transfer to syringaresinol was slower, however, the transfer to polymeric lignols occurred very slightly. This result suggests that the radical mediator theory does not sufficiently explain the mechanism for dehydrogenative polymerization of lignin. A cationic cell wall peroxidase (CWPO-C) from poplar (Populus alba L.) callus showed a strong substrate preference for sinapyl alcohol and the sinapyl alcohol dimer, syringaresinol. Moreover, CWPO-C was capable of oxidizing high-molecular-weight sinapyl alcohol polymers and ferrocytochrome c. Therefore, the CWPO-C characteristics are important to produce polymer lignin. The results suggest that CWPO-C may be a peroxidase isoenzyme responsible for the lignification of plant cell walls.
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U2 - 10.1016/S0014-5793(04)00224-8
DO - 10.1016/S0014-5793(04)00224-8
M3 - Article
C2 - 15044025
AN - SCOPUS:1642377866
SN - 0014-5793
VL - 562
SP - 197
EP - 201
JO - FEBS Letters
JF - FEBS Letters
IS - 1-3
ER -