Project description:Transcriptome of the ladybird beetle Micraspis discolor fed different diets

Project description:Transcriptome of the ladybird beetle Propylea japonica fed different diets

Project description:Transcriptome of the ladybird beetle Lemnia saucia fed different diets

Project description:Transcriptome of the ladybird beetle Henosepilachna vigintioctopunctata fed different diets

Project description:Transcriptome of the ladybird beetle Cryptolaemus montrouzieri fed different diets for several generations

Project description:Transcriptome of Coccinellini ladybird beetles fed different diets

Project description:Transcriptome of the ladybird beetle Cryptolaemus montrouzieri fed natural and unnatural diets

Project description:The most common ladybird beetle, Coccinella septempunctata L., is an excellent predator of crop pests such as aphids and white flies, and it shows a wide range of adaptability, a large appetite and a high reproductive ability. In this study, we collected female adults in three different states, i.e., non-diapause, diapause and diapause termination, for transcriptome sequencing.

Project description:Fecal microbiome Diaprepes abbreviatus fed different diets

Project description:Colorectal cancer (CRC) is strongly affected by diet, with red and processed meat increasing risk. To understand the role of microbiome in this phenomenon and to identify specific microbiome/metabolomics profiles associated with CRC risk, will be studied: 1) healthy volunteers fed for 3 months with: a high-CRC risk diet (meat-based MBD), a normalized CRC risk diet (MBD plus alpha-tocopherol, MBD-T), a low-CRC risk diet (pesco-vegetarian, PVD). At the beginning and at the end of the intervention, gut microbiome profiles (metagenomics and metabolomics), and CRC biomarkers (genotoxicity, cytotoxicity, peroxidation in faecal water; lipid/glycemic indexes, inflammatory cytokines, oxidative stress), 2) Colon carcinogenesis: the same diets will be fed (3 months) to carcinogen-induced rats or to Pirc rats, mutated in Apc, the key gene in CRC; faecal microbiome profiles, will be correlated to carcinogenesis measuring preneoplastic lesions, colon tumours, and faecal and blood CRC biomarkers as in humans; 3) To further elucidate the mechanisms underlying the effect of different microbiomes in determining CRC risk, faeces from rats fed the experimental diets will be transplanted into carcinogen-induced germ-free rats, measuring how microbiome changes correlate with metabolome and disease outcomes. The results will provide fundamental insight in the role of microbiome in determining the effect of the diet, in particular red/processed meat intake, on CRC risk