Project description:Differential transcriptome of Paramecium tetraurelia strain 51 undergoing RNAi by feeding against ICL7a (as a control) and RDR3 for nine days.

Project description:Paramecium tetraurelia strain:51 Epigenomics

Project description:To study the role of structural maintenance of chromosome (SMC)4-1 and SMC4-2 during programmed genome rearrangement in Paramecium tetraurelia. Paramecium SMC4-1 and SMC4-2 was tagged with 3 FLAG and HA at its C-terminal separately. The recombinant plasmid was microinjected into macronuclear and used for co-immunoprecipitation and Mass spectrometry studies to identify interacting proteins of SMC4-1 and SMC4-2 that indicates the different functions between Paramecium SMC4s.

Project description:The DNA fragment of PtCAF1, one of the core component of PRC2, is fused with FlagHA and transformed into the macronuclear of Paramecium tetraurelia. The interacted proteins of PtCaf1 in Empty vector (EV) control and PtGTSF1 silenced cells were immunoprecipitated with anti-HA antibody, followed with mass spectrometry.

Project description:Paramecium tetraurelia strain:51 Raw sequence reads

Project description:5-methyl-cytosine DNA methylation regulates gene expression and developmental programming in a broad range of eukaryotes. However, its presence and potential roles in ciliates, complex single-celled eukaryotes with germline-somatic genome specialization via nuclear dimorphism, are largely uncharted. While canonical cytosine methyltransferases have not been discovered in published ciliate genomes, recent studies performed in the stichotrichous ciliate Oxytricha trifallax suggest de novo cytosine methylation during macronuclear development. In this study, we applied bisfulfite genome sequencing, DNA mass spectrometry and antibody-based fluorescence detection to investigate the presence of DNA methylation in Paramecium tetraurelia. While the antibody-based methods suggest cytosine methylation, DNA mass spectrometry and bisulfite sequencing reveal that levels are actually below the limit of detection. Our results suggest that Paramecium does not utilize 5-methyl-cytosine DNA methylation as an integral part of its epigenetic arsenal.

Project description:ChIPseq and MNAse of the Paramecium tetraurelia macronuclear chromatin

Project description:The macronuclear genome of Paramecium tetraurelia has been sequenced by the Paramecium Genomics Consortium

Project description:PtGtsf1 was fused with FlagHA and induced to express in Paramecium tetraurelia. The interacted proteins of PtGtsf1 was obtained by immunoprecipitation with anti-HA antibody, followed with mass spectrometry to identify the proteins. Meanwhile, FlagHA without PtGtsf1 was expressed in Paramecium tetraurelia as control and was performed with same procedures as PtGtsf1-FlagHA. By comparing the enrichment of proteins in PtGtsf1-FlagHA and control, the interacted proteins of PtGtsf1 in Paramecium tetraurelia were identified.

Project description:Paramecium tetraurelia