Project description:In present study, Transcriptome analysis revealed unique differentially expressed genes (DEGs). including transcription factors (TFs), during root development in D. asperoides. In addition, α-linolenic acid metabolism, jasmonic acid (JA) biosynthesis, JA signal transduction, sesquiterpenoid and triterpenoid biosynthesis, and terpenoid backbone biosynthesis were prominently enriched.

Project description:Omics Analysis of Postharvest Tomatoes Treated with Pulsed Light

Project description:We studied the MeJA response processes at four time points in Sindora glabra, which accumulates abundant sesquiterpenes in the tree trunk. Across the time course, differentially expressed genes involved in terpenoid backbone biosynthesis were significantly enriched, while JAZ genes involved in jasmonic acid pathway and TGA genes involved in salicylic acid pathway were significantly enriched at later time point after treatment.

Project description:In total, 5856 proteins were identified via proteomics analysis, 97 of which were significantly differentially expressed in the liver and affected fatty acid metabolism, unsaturated fatty acid biosynthesis, the peroxisome proliferator-activated receptor (PPAR) signalling pathway, pyruvate metabolism, and terpenoid backbone biosynthesis. Screening identified 10 target proteins, including perilipin‐2 (Plin2), Pdk4, farnesyl diphosphate synthase (Fdps) and Fdft1. Among these, the key proteins were Plin2 and Fdps, which were found to be associated with the PPAR signalling pathway and terpenoid backbone biosynthesis via the relationship networks

Project description:We analyzed the transcriptome of A. acutangulus roots by deep RNA sequencing to dig TAs biosynthetic genes. KOG (Eukaryotic Orthologous Groups) and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway enrichment analyses identified 48 unigenes referring to the tropane, piperidine and pyridine alkaloid biosynthesis, 145 unigenes presumably involved in distribution of arginine to TAs biosynthesis, and 86 unigenes referring to the terpenoid backbone biosynthesis. Furthermore, 82 unigenes annotated as cytochrome P450 family members seemed to be involved in secondary metabolism pathways. Previously unknown TAs biosynthetic genes in A. acutangulus, which encode littorine mutase/monooxygenase (CYP80F1) and diamine oxidase (DAO), were identified by this study.

Project description:Terpenoid biosynthesis genome mining

Project description:Light quality is an important abiotic factor that affects growth and development of photosynthetic organism. In this study, D. salina was exposed to red (660 nm) and blue light (450 nm), and cell growth, pigments, and transcriptome were analyzed. The RNA of D. salina was sequenced and transcriptomic response of algal cells after transitioning from white light to red and blue light was investigated. Genes encoding for enzymes involved in photosynthesis were down-regulated, whereas genes involved in the metabolism of carotenoid were up-regulated. Genes encoding for photoprotective enzymes related to reactive oxygen species scavenging were up-regulated under both red and blue light. The present transcriptomic study would assist in the comprehensive understanding of carotenoid biosynthesis of D. salina.

Project description:Cucumber (Cucumis sativus L.) is an economically important vegetable crop distributed in over 80 countries. Downy mildew (DM) caused by the obligate oomycete Pseudoperonospora cubensis is especially destructive in cucumber production. So far, few studies on the changes in proteomes during the P. cubensis infection have been performed. Using a newly developed TMT-LC-MS/MS analysis, the proteomes of DM-resistant variety ‘ZJ’ and DM-susceptible variety ‘SDG’ under the P. cubensis infection were investigated. In total, 6400 proteins were identified, 5629 of which were quantified. The differential accumulated proteins (DAPs) exhibited various biological functions and diverse subcellular localizations. KEGG enrichment analysis showed that various metabolic pathways were significantly altered under the P. cubensis infection, such as terpenoid backbone biosynthesis, and selenocompound metabolism in ZJ, and starch and sucrose metabolism in SDG. Most of the enzymes associated with terpenoid backbone synthesis were significantly accumulated in ZJ rather than in SDG, suggesting that pathogen-induced terpenoids accumulation might play an important role in the resistance against P. cubensis infection. Furthermore, a number of pathogenesis-related proteins and heat shock proteins were identified as DAPs, suggesting that DM resistance was controlled by a complex network. Our data allowed us to identify and screen more potential proteins related to the DM resistance.

Project description:Blue light + UVB mixed light promoted the increase of carotenoid biosynthesis in mango fruit flesh.

Project description:To shed light on the biosynthesis mechanisms of these diterpenes, we performed the first high-throughput RNA-seq for A. paniculata leaves with time-serialized MeJA treatments. The transcriptomic approach not only defined a comprehensive transcriptome (comprised of 20,629 highly expressed genes), but also profiled time-serialized gene expression patterns with 4,463 up-regulated genes and 6,517 down-regulated genes responding to MeJA induction. These up-regulated genes significantly enriched in biological processes like stress responses, metabolic pathways, and secondary metabolites biosynthesis, especially terpene/terpenoid metabolic process. Consistent with the gradual accumulation of andrographolide, the expression of most genes involved in MEP pathway showed progressive increase. In the hypothetical terpenoid metabolism pathway, ApCPS2, which was putatively involved in andrographolide synthesis, dramatically increased its expression. Among other co-regulated genes, 154 genes encode cytochrome P450s (CYP450s); 42 genes were predicted as UDP glycosyltransferases (UGTs); and 363 genes belong to transcription factors.