Project description:Effect of induced Methylation on 3D genome organisation in yeast. Hi-C experiment were performed on yeast expressing or not the 4 murine DNMTs (DNMT1, 3a, 3b and 3L).

Project description:Nucleosome positioning in Yeast with or without induced DNA methylation

Project description:The role of insulators and transcription in 3D chromatin organisation of flies

Project description:Solid State Fermentation (SSF) processes have been explored for yeast growth and protein and metabolites production. However, most of these processes lack standardization. In this work, we present a polylactic acid (PLA) 3D printed matrix that dramatically enhances yeast growth when embedded in liquid media compared to equivalent static cultures, and changes yeast expression patterns at the proteome level. Moreover, differences in sugar assimilation and ethanol production, as the main product of alcoholic fermentation, are observed. Our results suggest that these matrixes may be useful for a vast range of biotechnological applications based on yeast fermentation.

Project description:Effect of induced Methylation on Nucleosome positioning in yeast. Mnase digested DNA from a control strain and a strain expressing the 4 murine DNMTs were extracted and sequenced on a hiseq 2000

Project description:The therapeutic regimens of adjuvant and neoadjuvant chemotherapy for colorectal cancer (CRC) remain largely relied on clinical experience, and thus preclinical models are needed to guide individualized medicine. The investigators are going to establish 3D bioprinted CRC models and organoids from surgically resected tumor tissues of CRC patients with or without liver metastases. In vitro 3D models and organoids will be treated with the same chemotherapy drugs with the corresponding patients from whom the models are derived. The sensitivity of chemotherapy drugs will be tested in these two types of in vitro models, and the actual response to chemotherapy in patients will be evaluated. The predictive ability of 3D models for chemotherapy sensitivity in CRC patients will be compared with that of the organoids. This observational study will validate the potential value of 3D bioprinted tumor models in predicting the response to chemotherapy in CRC.

Project description:Sequencing of yeast mutants with or without phosphate depletion

Project description:Manipulating the 3D organization of the largest synthetic yeast chromosome

Project description:The DNA in humans and many animals is compartmentalised in topologically associating domains (TADs). In Drosophila, several architectural proteins are enriched at TAD borders, but we are still missing evidence that these proteins have a functional role in TAD maintenance. Here, we show that depletion of BEAF-32, Cp190 and Chro leads to changes in TAD organisation and chromatin loops. Their depletion affects mainly TAD borders in heterochromatin, while euchromatin TAD borders are resilient to these mutants. Furthermore, transcriptomic data identified thousands of genes displaying differential expression in these mutants and that majority of differentially expressed genes are in TADs that are reorganised. In contrast, we observed a lower effect on gene expression by the loss of chromatin loops. Our work identified for the first time a functional role for architectural proteins at TAD borders in Drosophila and a strong link between TAD reorganisation and changes in gene expression.

Project description:We report the application of Chromosome Conformation Capture Carbon-copy (5C) to a 4.5 Mb stretch of the mouse X chromosome encompassing the X inactivation center locus. We uncover a series of discrete 200kb-1Mb topologically associating domains (TADs). These align with several domain-wide epigenomic features as well as co-regulated gene clusters. 5C analysis in EED and G9A mutants reveal that this segmental organisation in TADs does not relie on the underlying H3K27me3 or H3K9me2 blocks. Deletion of a boundary between two TADs leads to ectopic chromosomal contacts between them. Analysis of mESCs, mNPCs and MEFs suggest that the positioning of TADs on the chromosome is stable during cell differentiation though their internal organisation changes. Comparison of male (XY) and female (XX) differentiated cells highlights that the long-range chromosomal contacts within TADs are dampened on the inactive X compared to the active X. 5C oligonucleotides were designed around HindIII restriction site following an alternative scheme