Enzymatische Versuche zur Entstehung des Lignins.

“…Since the 1950s, various oxidases have been implicated as having roles in lignification -these have included peroxidase (12,53,54,171,(254)(255)(256)(257), laccase (12,53,54,(258)(259)(260)(261)(262)(263)(264)(265)(266), combined peroxidase and laccase (12,53,54,254,267), coniferyl alcohol oxidase (268)(269)(270)(271), (poly)phenol oxidase (272)(273)(274)(275)(276)(277)(278), and cytochrome oxidase (279). Their putative involvement has generally relied upon the ability of such enzymes to oxidize monolignols in vitro, even though none of these enzymes have yet engendered formation of products in vitro that duplicate faithful facsimiles of lignin structure; in some cases, they do not even generate formation of polymeric products.…”

“…The early suggestions that a polyphenol oxidase might be involved emerged from studies by Freudenberg in 1953, using a press-sap extract of the mushroom, Agaricus campestris (272)(273)(274)(275)(276)(277) and also later by Mason and Cronyn (278); mushrooms do not, however, biosynthesize lignins. Another candidate was coniferyl alcohol oxidase, detected in jack pine (Pinus strobus) (268,269), other Pinaceae species (268,269,271) and tobacco (270); this has also not been demonstrated to either afford lignins in vitro and/or have a role in lignification in vivo.…”

Lignins: A Twenty‐First Century Challenge

“…Since the 1950s, various oxidases have been implicated as having roles in lignification -these have included peroxidase (12,53,54,171,(254)(255)(256)(257), laccase (12,53,54,(258)(259)(260)(261)(262)(263)(264)(265)(266), combined peroxidase and laccase (12,53,54,254,267), coniferyl alcohol oxidase (268)(269)(270)(271), (poly)phenol oxidase (272)(273)(274)(275)(276)(277)(278), and cytochrome oxidase (279). Their putative involvement has generally relied upon the ability of such enzymes to oxidize monolignols in vitro, even though none of these enzymes have yet engendered formation of products in vitro that duplicate faithful facsimiles of lignin structure; in some cases, they do not even generate formation of polymeric products.…”

“…The early suggestions that a polyphenol oxidase might be involved emerged from studies by Freudenberg in 1953, using a press-sap extract of the mushroom, Agaricus campestris (272)(273)(274)(275)(276)(277) and also later by Mason and Cronyn (278); mushrooms do not, however, biosynthesize lignins. Another candidate was coniferyl alcohol oxidase, detected in jack pine (Pinus strobus) (268,269), other Pinaceae species (268,269,271) and tobacco (270); this has also not been demonstrated to either afford lignins in vitro and/or have a role in lignification in vivo.…”

Lignins: A Twenty‐First Century Challenge

“…In an interesting series of papers Freudenberg and Richtzenhain (31,32), and later Richtzenhain (77, 78, 79) reported researches on the enzyme-catalyzed polymerization of lignin-related compounds. The enzyme was obtained by extracting the sporophores of Agaricus campestris with water and subsequent fractionation of the water extract with alcohol to give a dry powder.…”

Microbiological Aspects of Lignin Degradation 1

“…Five decades ago, Freudenberg and Richtzenhain (1943) produced a lignin-like material, dehydrogenation polymer (DHP), by dehydrogenative polymerization of coniferyl alcohol with press-sap of champignon in the presence of oxygen. Eventually, the major enzyme in the press-sap of champignon was identified to be laccase (Benzendiol: Oxygen Oxidoreductase; EC 1.10.3.1).…”

Comparative Studies on Dehydrogenative Polymerization of Coniferyl Alcohol by Laccases and Peroxidases. Part 1. Preliminary Results