AI Article Synopsis
- Lys-derived alkaloids are important plant compounds but their biosynthetic mechanisms are largely unknown, with only the initial steps of quinolizidine alkaloid biosynthesis identified.
- There is ongoing uncertainty regarding the enzymes and reactions involved, particularly in the dimerization of Δ 1 -piperideine, which may occur spontaneously or enzymatically but has not yet been demonstrated.
- The study employed density functional theory computations to explore the energetic viability of Δ 1 -piperideine dimerization under different conditions, aiming to identify candidate genes for Lys-derived alkaloid biosynthesis.
Article Abstract
Lys-derived alkaloids widely distributed in plant kingdom have received considerable attention and have been intensively studied; however, little is known about their biosynthetic mechanisms. In terms of the skeleton formation, for example, of quinolizidine alkaloid biosynthesis, only the very first two steps have been identified and the later steps remain unknown. In addition, there is no available information on the number of enzymes and reactions required for their skeletal construction. The involvement of the Δ 1 -piperideine dimerization has been proposed for some of the Lys-derived alkaloid biosyntheses, but no enzymes for this dimerization reaction have been reported to date; moreover, it is not clear whether this dimerization reaction proceeds spontaneously or enzymatically. In this study, the energetic viability of the Δ 1 -piperideine dimerizations under neutral and acidic conditions was assessed using the density functional theory computations. In addition, a similar type of reaction in the dipiperidine indole alkaloid, nitramidine, biosynthesis was also investigated. Our findings will be useful to narrow down the candidate genes involved in the Lys-derived alkaloid biosynthesis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6161264 | PMC |
| http://dx.doi.org/10.3390/metabo8030048 | DOI Listing |
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