Project description:To understand the functional roles of YTHDF1 in cellular senescence and aging, we lead the RNA sequence in WT or Ythdf1 deficiency colon epithelial cells. The results showed that the cholesterol biosynthesis related genes were upregulated in Ythdf1 KO mice. We also purified FLAG-YTHDF1 protein in HEK293T cells and did protein mass spectrometry, and found that the mTORC1 and TSC complex constituents mTOR, RPTOR, and TSC1/2 were identified in the YTHDF1-complex. Methylated RNA immunoprecipitation(MeRIP) with specific m6A antibody and used for library construction and the next generation sequencing, to identify m6A modified transcripts in WT or Ythdf1 deficiency colon epithelial cells after DSS treatment

Project description:Cyanobacterial identification by native mass spectrometry

Project description:Methanococcus maripaludis is a methanogenic archaeon. Within its genome, there are two operons for membrane associated hydrogenases, eha and ehb. To investigate the regulation of ehb on the cell, an S40 mutant was constructed in such a way that a portion of the ehb operon was replaced by pac cassette in the wild type parental strain S2 (done by Whitman's group at the University of Georgia). The S40 and S2 strains were grown in 14N and 15N media with acetate separately. A biological replicate was made by switching the media. Mass spectrometry based quantitative proteomics were done on the mixtures to investigate the differences in expression patterns between S40 and S2. Keywords: isotope labeling mass spectrometry, quantitative proteomics

Project description:We present a combinatorial approach, integrating experimental data from small protein-optimized mass spectrometry (MS) and ribosome profiling (Ribo-seq), to generate a high confidence inventory of small proteins in the model archaeon Haloferax volcanii.

Project description:We report the usage of ChIP-mass spectrometry in identifying proteins and histone modifications involved in Drosophila dosage compensation. We identified a chromatin targeting factor, CG4747, that is involved in recognition of H3K36me3 and robust recruitment of the Drosophila MSL complex to its correct targets on the male X chromosome. ChIP-seq with PAP antibody of Drosophila larvae expressing C-terminally TAP-tagged CG4747.

Project description:More than half of the mass spectra could not be identified in most proteome mass spectrometry experiments. Various modifications have been considered as a major reason. Open search strategy was then introduced to solve this problem, however, lacking thorough quality assessment using independent information. Here, we used the “Suspicious Discovery Rate (SDR)” based on the translatome sequencing (RNC-seq) as an independent source to assess the proteome open search strategy. We found that the open search strategy increased the spectra utilization with the cost of increasing suspicious identifications that lacks translation evidence. We further suggested that restricting the peptide FDR below 0.1% would efficiently control the suspicious identifications of open search methods and enhanced the confidence of the peptide identification with modifications than the narrow window search. These results facilitated the proper use of open search methods for higher quality of proteome identifications with the information of post-translational modifications and single amino acid polymorphisms

Project description:Overexpressed Flag-MAVS in HEK293T, and detected MAVS-interacting proteins.

Project description:The metabolic kinase AMPK regulates transcription in response to nutrient status. AMPK is highly phosphorylated at position Ser184 in the regulatory beta2-subunit, however it's function is unknown. Our preliminary data indicate AMPK dephosphorylated at beta2-Ser184 has elevated nuclear activity and down-regulates apoptotic pathways in response to environmental insult. Here we compare transcriptomes of HEK293T cells expressing either endogenous level beta2 WT or the non-phosphorylatable mutant beta2-Ser182Ala, to gain insight into functional effects of elevated nuclear AMPK activity

Project description:Cellular membranes are composed of proteins and glyco- and phospholipids and play an indispensible role in maintaining cellular integrity and homeostasis, by physically restricting biochemical processes within cells and providing protection. Membrane proteins perform many essential functions, which include operating as transporters, adhesion-anchors, receptors, and enzymes. Recent advancements in proteomic mass spectrometry have resulted in substantial progress towards the determination of the plasma membrane (PM) proteome, resolution of membrane protein topology, establishment of numerous receptor protein complexes, identification of ligand-receptor pairs, and the elucidation of signaling networks originating at the PM. Here, we discuss the recent accelerated success of discovery-based proteomic pipelines for the establishment of a complete membrane proteome.

Project description:We report the usage of ChIP-mass spectrometry in identifying proteins and histone modifications involved in Drosophila dosage compensation. We identified a chromatin targeting factor, CG4747, that is involved in recognition of H3K36me3 and robust recruitment of the Drosophila MSL complex to its correct targets on the male X chromosome.