The root of Euphorbia pekinensis as a traditional herbal medicine has been recorded in Chinese pharmacopoeias for the treatment of oedema, gonorrhea, migraine and wart cures. In this work, we reported on the cDNA cloning and characterization of a novel farnesyl diphosphate synthase (FPS) from E. pekinensis. The full-length cDNA named EpFPS (Genbank Accession Number FJ755465) contained 1431 bp with an open reading frame of 1029 bp encoding a polypeptie of 342 amino acids. The deduced amino acid sequence of the EpFPS named EpFPS exhibited a high homology with other plant FPSs, and contained five conserved domains. Phylogenetic analysis showed that EpFPS belonged to the plant FPS group. Southern blot analysis revealed that there exists a small FPS gene family in E. pekinensis. Expression pattern analysis revealed that EpFPS expressed strongly in root, weak in leaf and stem. In callus, expression of EpFPS gene and biosynthesis of triterpenoids were strongly induced by Methyl jasmonate and slightly induced by Salicylic acid. Functional complementation of EpFPS in an ergosterol auxotrophic yeast strain indicated that the cloned cDNA encoded a functional farnesyl diphosphate synthase.
In order to accurately monitor the tool wear process, it is usually necessary to collect a variety of sensor signals during the cutting process. Different sensor signals in the feature space can provide complementary information. In addition, the monitoring signal is time series data, which also contains a wealth of tool degradation information in the time dimension. However, how to fuse multi-sensor information in time and space dimensions is a key issue that needs to be solved. This paper proposes a new time-space attention mechanism driven multi-feature fusion method to realize the tool wear monitoring. Firstly, lots of features are established from different sensor signals
Farnesyl diphosphate synthase (FPS; EC 2.5.1.1/EC 2.5.1.10) catalyzes the synthesis of farnesyl diphosphate, a key intermediate in the biosynthesis of sesquiterpenes. This present study described the cloning and characterization of a cDNA encoding FPS from leaves of Michelia chapensis Dandy (designated as McFPS, GenBank accession number: GQ214406) for the first time. McFPS was 1,432 bp and contained an open reading frame (ORF) of 1,056 bp, encoding a protein of 351 amino acids with a calculated molecular mass of 40.52 kDa. Bioinformatic analysis revealed that the deduced McFPS had high homology with FPSs from other plant species. Phylogenetic tree analysis indicated that McFPS belonged to the plant FPS group and had the closest relationship with FPS from Chimonanthus praecox. Southern blot analysis revealed that there were at most two copies of McFPS gene existed in M. chapensis genome. The organ expression pattern analysis showed that McFPS expressed strongly only in leaves, and there were no expression in stems and roots, implying that McFPS was an organ-specific expressing gene. Functional complementation of McFPS in a FPS-deficient yeast strain demonstrated that cloned cDNA encoded a farnesyl diphosphate synthase.
Squalene synthase catalyzes the condensation of 2 molecules of farnesyl diphosphate to produce squalene, the first committed precursor for sterol, brassinosteroid, and triterpene biosynthesis. A squalene synthase gene, designated IoSQS, was isolated from Inonotus obliquus, a medicinal mushroom that produces a plethora of bioactive triterpenes. IoSQS complementary DNA was found to contain an open reading frame of 1476 bp, encoding a protein of 491 amino acids with a calculated molecular mass of 55.85 kDa. The IoSQS genomic DNA sequence consisted of 1813 bp and contained 4 exons and 3 introns. The restriction fragment polymorphisms revealed by Southern blot analysis suggested that IoSQS was a single-copy gene. Promoter analysis indicated that the 5' upstream region of IoSQS possessed various potential elements associated with physiological and environmental factors. The expression pattern of IoSQS in different stages and under methyl jasmonate treatment correlated with the accumulation of total triterpenoids and was consistent with the predicted results of the IoSQS promoter region. The N-terminal 466 residues of the hydrophilic sequence were expressed as a His-tagged protein in Escherichia coli, and the resultant bacterial crude extract was incubated with farnesyl diphosphate and NADPH. Squalene was detected in vitro in reaction mixture by high-performance liquid chromatography analysis. These results suggest that the IoSQS enzyme is involved in squalene production in I. obliquus.
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