1998
DOI: 10.1021/bk-1998-0697.ch021
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Structural Diversity in Lignans and Neolignans

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Cited by 7 publications
(4 citation statements)
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“…Only one such protein has been characterized sufficiently to reveal that its activity results in the preferential production of an 8-8-linked coniferyl alcohol dimer (pinoresinol). However, we are unaware of a dirigent protein directing the formation of the most common lignin bond, 8-O-4-linkages between monolignols, despite the occurrence of lignans containing the 8-O-4-linkage (Wallis, 1998); nor are we aware of any evidence for dirigent proteins that result in the formation of lignin. Furthermore, although a polyclonal antibody raised against the dirigent protein reacted with epitopes in vascular tissue of F. suspensa (Davin and Lewis, 2000) is an interesting observation, it is not proof for an actual involve- Figure 3.…”
Section: The Dirigent Protein Modelmentioning
confidence: 99%
“…Only one such protein has been characterized sufficiently to reveal that its activity results in the preferential production of an 8-8-linked coniferyl alcohol dimer (pinoresinol). However, we are unaware of a dirigent protein directing the formation of the most common lignin bond, 8-O-4-linkages between monolignols, despite the occurrence of lignans containing the 8-O-4-linkage (Wallis, 1998); nor are we aware of any evidence for dirigent proteins that result in the formation of lignin. Furthermore, although a polyclonal antibody raised against the dirigent protein reacted with epitopes in vascular tissue of F. suspensa (Davin and Lewis, 2000) is an interesting observation, it is not proof for an actual involve- Figure 3.…”
Section: The Dirigent Protein Modelmentioning
confidence: 99%
“…Both lignans and neolignans share similar structural conformation, but they can be easily characterized by difference in (a minor but significant) bonding pattern. Generally, lignans consist of phenylpropane dimers that are bonded through the carbon atoms (C8/C8$) of their side chains, whereas in neolignans, these dimers are connected through bond other than C8/C8$ [3].…”
Section: Introductionmentioning
confidence: 99%
“…[14] Lignans, which represent a coupling of two phenyl propanoids (C 6 -C 3 ) via a C(8) and C(8 0 ) bond, exist in a large group of natural sources. The phenylpropanoids are important intermediates in the synthesis of lignans, as well as styrylpyrones, coumarins, and lignins.…”
Section: Introductionmentioning
confidence: 99%
“…The phenylpropanoids are important intermediates in the synthesis of lignans, as well as styrylpyrones, coumarins, and lignins. [14] Lignans, which represent a coupling of two phenyl propanoids (C 6 -C 3 ) via a C (8) and C(8 0 ) bond, exist in a large group of natural sources. [15] Lignans are transformed to a lot of backbone structures in the lignan pathway, such as enterolactone, enterodiol, monoepoxy, and diepoxy lignans.…”
Section: Introductionmentioning
confidence: 99%