Project description:microbial diversity in a continuous-flow AOA system

Project description:continuous-flow

Project description:rumen microbiota in dual-flow continuous culture system

Project description:microbial diversity on FN-PDA

Project description:We used wheat as rotational crop to assess the influence of continuous cropping on microbiome in Pinellia ternata rhizosphere and the remediation of rotational cropping to the impacted microbiota. Illumina high-throughput sequencing technology was utilized for this method to explore the rhizosphere microbial structure and diversity based on continuous and rotational cropping.

Project description:A three-stage continuous fermentative system was developed to simulate and control physicochemical factors of the gut biology. Inoculation was of each reactor was performed from a human fecal sample which was initially amplified with a batch procedure. Samples from the initial feces, the batch and from the bioreactors media were collected to extract bacterial DNA. 16S PCR amplification was performed to assess the microbial diversity at the family level using the HuGChip. Amplified DNA was purified and labelled with either Cy3 or Cy5 dye and hybridized on the microarray.

Project description:In this study, we used an original system to produce C. difficile anaerobic biofilms consisting in continuous-flow microfermentors, that is compared to planktonic growth culture.

Project description:Pancreatic ductal adenocarcinoma (PDA) is one of the most lethal human malignancies, owing in part to its propensity for metastasis. Here, we used an organoid culture system to investigate how transcription and the enhancer landscape become altered during each stage of PDA progression. This approach revealed that the metastatic transition is accompanied by massive, and recurrent alterations in enhancer activity. We implicate the transcription factors FOXA1 and GATA5 as drivers of enhancer activation in this system, a mechanism that we show renders PDA cells more invasive and less anchorage-dependent for growth in vitro, as well as more metastatic in vivo. FOXA1 and GATA5 were found to activate a foregut endoderm transcriptional program in PDA cells, without altering genes associated with the epithelial-to- mesenchymal transition. Collectively, our study implicates FOXA1/GATA5 upregulation, enhancer reprogramming, and a novel retrograde developmental transition in PDA progression and metastasis.

Project description:Pancreatic ductal adenocarcinoma (PDA) is one of the most lethal human malignancies, owing in part to its propensity for metastasis. Here, we used an organoid culture system to investigate how transcription and the enhancer landscape become altered during each stage of PDA progression. This approach revealed that the metastatic transition is accompanied by massive, and recurrent alterations in enhancer activity. We implicate the transcription factors FOXA1 and GATA5 as drivers of enhancer activation in this system, a mechanism that we show renders PDA cells more invasive and less anchorage-dependent for growth in vitro, as well as more metastatic in vivo. FOXA1 and GATA5 were found to activate a foregut endoderm transcriptional program in PDA cells, without altering genes associated with the epithelial-to- mesenchymal transition. Collectively, our study implicates FOXA1/GATA5 upregulation, enhancer reprogramming, and a novel retrograde developmental transition in PDA progression and metastasis.

Project description:A three-stage continuous fermentative system was developed to simulate and control physicochemical factors of the gut biology. Inoculation was of each reactor was performed from a human fecal sample which was initially amplified with a batch procedure. Samples from the initial feces, the batch and from the bioreactors media were collected to extract bacterial DNA. 16S PCR amplification was performed to assess the microbial diversity at the family level using the HuGChip. Amplified DNA was purified and labelled with either Cy3 or Cy5 dye and hybridized on the microarray. A 5 chip study was realized, each corresponding to hybridization with 250ng of labelled 16S rRNA gene amplicons from either the initial stool, the batch inoculum or fermentative medium different compartments of the simulated colon (Proximal, Transversal and Distal). Each probe (4441) was synthetized in three replicates.