木质素酶介导的苯氧基自由基形成和聚合不受纤维二糖:醌氧化还原酶的影响。
Ligninase-mediated phenoxy radical formation and polymerization unaffected by cellobiose:quinone oxidoreductase.
作者信息
Odier E, Mozuch M D, Kalyanaraman B, Kirk T K
机构信息
Institut National de la Recherche Agronomique, Laboratoire de Microbiologie, INA P-G, Thiverval-Grignon, France.
出版信息
Biochimie. 1988 Jun;70(6):847-52. doi: 10.1016/0300-9084(88)90117-4.
Phanerochete chrysosporium ligninase (+ H2O2) oxidized the lignin substructure-related compound acetosyringone to a phenoxy radical which was identified by ESR spectroscopy. Cellobiose:quinone oxidoreductase (CBQase) + cellobiose, previously suggested to be a phenoxy radical reducing system, was without effect on the radical. Ligninase polymerized guaiacol and it increased the molecular size of a synthetic lignin. These polymerizations, reflecting phenoxy radical coupling reactions, were also unaffected by the CBQase system. We conclude that ligninase catalyzes phenol polymerization via phenoxy radicals, which CBQase does not affect. The CBQase system also did not produce H2O2, and its physiological role remains obscure. Glucose oxidase + glucose did produce H2O2 as expected, but, like CBQase, it did not reduce the phenoxy radical of acetosyringone. Because intact cultures of P. chrysosporium depolymerize lignins, it is likely that phenol polymerization by ligninase is prevented or reversed in vivo by an as yet undescribed system.
黄孢原毛平革菌木质素酶(+过氧化氢)将与木质素亚结构相关的化合物乙酰丁香酮氧化为苯氧自由基,该自由基通过电子自旋共振光谱法得以鉴定。先前认为纤维二糖:醌氧化还原酶(CBQase)+纤维二糖是一种苯氧自由基还原系统,但它对该自由基没有影响。木质素酶使愈创木酚聚合,并增大了合成木质素的分子大小。这些反映苯氧自由基偶联反应的聚合作用也不受CBQase系统的影响。我们得出结论,木质素酶通过苯氧自由基催化酚类聚合,而CBQase对此没有影响。CBQase系统也不产生过氧化氢,其生理作用仍不清楚。葡萄糖氧化酶+葡萄糖确实如预期那样产生了过氧化氢,但与CBQase一样,它不能还原乙酰丁香酮的苯氧自由基。由于黄孢原毛平革菌的完整培养物能使木质素解聚,所以在体内,木质素酶催化的酚类聚合作用很可能被一个尚未描述的系统阻止或逆转。
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