Project description:Emilia sonchifolia Raw sequence reads

Project description:Emilia sonchifolia Genome sequencing and assembly

Project description:Francoa sonchifolia overview

Project description:This study aims to investigate genes regulated by liver tissue from the mice treated with water extract of Emilia sonchifolia.

Project description:Francoa sonchifolia Genome sequencing

Project description:Endophytic diversity analysis from Emilia sonchifolia

Project description:Metagenome analysis of Endophytic bacteria from Emilia sonchifolia

Project description:Emilia sonchifolia is a herb with antioxidant, anti-inflammatory, antitumor, and wound healing properties. The complete chloroplast genome (cp genome) of the genus Emilia was sequenced for the first time. The cp genome of E. sonchifolia is 151,474 bp in length. It contained a large single-copy (LSC) region (84,004 bp), and small single-copy (SSC) region (17,980 bp), and two inverted repeats (IRs, 24,745 bp). Phylogenetic analysis of 24 species was conducted. E. sonchifolia was found to be closely related to Pericallis hybrida and Dendrosenecio spp. The sequenced cp genome would be useful to understand the phylogeny and genomic studies of the genus Emilia.

Project description:Focus of this project is to evaluate the possible financial benefit resulting from an optimization of surgical outcomes throughout a collaborative and systematic auditing activity.The primary objective of this analysis is to assess the employed resources by National Health System related to surgical activities for primary colorectal cancer during a collaborative and systematic auditing activity in 8 Surgical Units of Emilia-Romagna

Project description:Cyanthillium cinereum (L.) H.Rob. is one of the most popular herbal smoking cessation aids currently used in Thailand, and its adulteration with Emilia sonchifolia (L.) DC. is often found in the herbal market. Therefore, the quality of the raw material must be considered. This work aimed to integrate macro- and microscopic, chemical and genetic authentication strategies to differentiate C. cinereum raw material from its adulterant. Different morphological features between C. cinereum and E. sonchifolia were simply recognized at the leaf base. For microscopic characteristics, trichome and pappus features were different between the two plants. HPTLC profiles showed a distinct band that could be used to unambiguously differentiate C. cinereum from E. sonchifolia. Four triterpenoid compounds, β-amyrin, taraxasterol, lupeol, and betulin, were identified from the distinct HPTLC band of C. cinereum. The use of core DNA barcode regions; rbcL, matK, ITS and psbA-trnH provided species-level resolution to differentiate the two plants. Taken together, the integration of macroscopic and microscopic characterization, phytochemical analysis by HPTLC and DNA barcoding distinguished C. cinereum from E. sonchifolia. The signatures of C. cinereum obtained here can help manufacturers to increase the quality control of C. cinereum raw material in commercialized smoking cessation products.