Molecular Mechanism Underlying Mechanical Wounding-Induced Flavonoid Accumulation in Dalbergia odorifera T. Chen, an Endangered Tree That Produces Chinese Rosewood.

Dalbergia odorifera, a critically endangered tree species, produces heartwood containing a vast variety of flavonoids. This heartwood, also known as Chinese rosewood, has high economic and medicinal value, but its formation takes several decades. In this study, we showed that discolored wood induced by pruning displays similar color, structure, and flavonoids content to those of natural heartwood, suggesting that wounding is an efficient method for inducing flavonoid production in D. odorifera. Transcriptome analysis was performed to investigate the mechanism underlying wounding-induced flavonoids production in D. odorifera heartwood. Wounding upregulated the expression of 90 unigenes, which covered 19 gene families of the phenylpropanoid and flavonoid pathways, including PAL, C4H, 4CL, CHS, CHI, 6DCS, F3'5'H, F3H, FMO, GT, PMAT, CHOMT, IFS, HI4'OMT, HID, IOMT, I2'H, IFR, and I3'H. Furthermore, 47 upregulated unigenes were mapped to the biosynthesis pathways for five signal molecules (ET, JA, ABA, ROS, and SA). Exogenous application of these signal molecules resulted in the accumulation of flavonoids in cell suspensions of D. odorifera, supporting their role in wounding-induced flavonoid production. Insights from this study will help develop new methods for rapidly inducing the formation of heartwood with enhanced medicinal value.

[Study on effective constituents extracted from fibrous roots of Salvia miltiorrhiza with degrading multi-enzymes from taishan Ganoderma lucidum].

OBJECTIVE: To study the application of degrading multi-enzymes from Ganoderma lucidum in extracting effective constituents from fibrous roots of Salvia miltiorrhiza. METHOD: Effective constituents were extracted from fibrous roots by degrading multi-enzymes of wood fiber. The enzymatic parameters were optimized by the orthogonal design. RESULT: The extraction efficiencies of total tanshinones and total salvianolic acids in the extracts of fibrous roots of S. miltiorrhiza was obtained using optimum enzymolysis process reached 11.923%, 12.465%, respectively, which were 62.794%, 56.086% more than that by conventional non-enzymatic hydrolysis. CONCLUSION: Degrading multi-enzymes of wood fiber can be used to fully extract effective constituents from fibrous roots of S. miltiorrhiza, which provides a new approach for recycling wastes of traditional Chinese medicines.

Removal of malachite green from water by Firmiana simplex wood fiber / Eliminación de malaquita verde del agua con fibra de madera Firmiana simple

This study shows that wood fiber of Phoenix tree (Firmiana simplex) is an effective adsorbent for malachite green (MG). MG sorption behavior onto the wood adsorbent was investigated in this study. Basic condition was favorable for MG adsorption to the adsorbent. The pseudo second order equation well described MG adsorption onto the wood adsorbent. The Freundlich Isotherm could describe the sorption data. The positive value of AH0 showed that adsorption of malachite green onto the wood adsorbent was endothermic. The negative values of AG at various temperatures indicate the spontaneous nature of the adsorption process.