Project description:An extended ChaFRADIC workflow was applied to analyze the N-terminal proteome of Arabidopsis thaliana seedlings. Using iTRAQ protein labeling, a multi-enzyme digestion approach including trypsin, GluC, and subtilisin, a total of 200 μg per enzyme were used, and only 1/3 of each ChaFRADIC-enriched fraction were analyzed by LC-MS. Furthermore, our goal was to gain insights of the Met-excision dogma where initiator Met residues are cleaved posstranslationally if the second residue is small, as well as the N-end rule degradation pathway (NERD) discriminating between stabilizing/destabilizing functions of N-terminal amino acid residues in Arabidopsis. We found bona fide NERD destabilizing residues underrepresented. The list of neo N-termini from wild type samples represents an extremely helpful resource for excluding pseudo-candidates of NERD.

Project description:A short sequence of 11 amino acids belonging to the cj0669 protein from Campylobacter jejuni NCTC 11168, which was previously identified as potentially immunogenic, was analyzed via alanine scanning to narrow down the significant amino acid residues within the sequence. Twelve peptides, one representing the original sequence and eleven peptides with each residue replaced by alanine in turn, were synthesized on microarrays by JPTs Pepstar Technology. For each microarray, nine replicates for each peptide were spotted. The microarray was separated into three incubation chambers by the ProPlate 3-well module (Grace Biolabs) to allow for incubation with different antibodies in parallel. For specific interactions, rabbit polyclonal IgG to C. jejuni was used, while unspecific binding to the epitope sequence was checked using rabbit polyclonal IgG to Salmonella enterica.

Project description:A short sequence of 11 amino acids belonging to the cj0669 protein from Campylobacter jejuni NCTC 11168 which was previously identified as potentially immunogenig was analyzed via alanine scanning to narrow down the significant amino acid residues within the sequence. Twelve peptides, one representing the original sequence and eleven peptides with each residue replaced by alanine in turn, were synthesized on microarrays by JPTs Pepstar Technology. For each microarray, nine replicates for each peptide were spotted. The microarray was seperated into three incubation chambers by the ProPlate 3-well module (Grace Biolabs) to allow for incubation with different antibodies in parallel. For specific interaction rabbit polyclonal IgG to C.jejuni was used, while non-specific binding to the epitope sequence was checked using rabbit polyclonal IgG to H. pylori (Abcam ab20459).

Project description:Different forms of dementia are caused by stop-loss mutations in the ITM2B gene, also known as Bri2, which result in the expression of 34 amino acid long peptides that accumulate as amyloids in human brains. In order to gather mechanistic insights into the formation of amyloids by two of these peptides, ADan and ABri - hallmarks of Danish and British dementia respectively - we employed saturation mutagenesis combined to a massively parallel selection assay that reports on amyloid nucleation. Our results reveal that ADan aggregates into amyloids remarkably faster than both the unextended peptide Bri2 and the extended ABri sequence. The complete mutational landscape of ADan reveals asparagines and charged residues as key players in the nucleation process in addition to aliphatic residues within positions 20-25. What is more, we show that extending Bri2 with just two specific residues is enough to generate a novel amyloid core which we suggest builds the structured core of ADan fibrils. On the other hand, only a handful of mutations can boost the ability of ABri to nucleate amyloids, including a SNV replacing the Bri2 stop codon by a Cys codon. Overall, the remarkably different aggregation profiles and mutational landscapes for the two peptides suggest that different disease mechanisms underlie disease in Danish and British dementia and highlight the importance of accurately measuring the impact of stop extension mutations for these and other sequences across the genome.

Project description:Histone methylation mainly occurs on lysine and arginine residues. While lysine methylation can be removed by LSD1 and JmjC domain-containing demethylases, the existence of histone arginine demethylases is highly controversial. Here, we performed a high-content cell-based screening of a cDNA library containing 2,500 nuclear proteins and identified RDMe1 as a histone arginine demethylase. Overexpression of RDMe1 in HEK293T cells reduces H3R2me1/2a and H4R3me1/2a levels. In vitro, RDMe1 specifically demethylates H3R2me1/2a and H4R3me1/2a, and generates formaldehyde and succinate. The enzymatic activity requires Fe(II) and α-ketoglutarate as cofactors. RDMe1 is mainly located in the nucleolar and regulates rRNA transcription by demethylating H3R2me2a. ChIP-seq reveals that RDMe1 demethylates H4R3me2a in the promoter in a genome-wide scale. NMR reveals that RDMe1 binds iron and substrate peptides with N and C termini, respectively. Mutation of the iron binding residues abolished the binding and the demethylase activity. Thus, we identify a histone arginine demethylase and reveal the reversibility of arginine methylation.

Project description:<p>Cyclic peptides are reported to have antibacterial, antifungal and other bioactivities. Orbitides are a class of cyclic peptide that are small, head-to-tail cyclized, composed of proteinogenic amino acids, and lack disulfide bonds; they are also known in several genera of the plant family Rutaceae. Melicope xanthoxyloides is the Australian rain forest tree of the Rutaceae family in which evolidine - the first plant cyclic peptide - was discovered. Evolidine (cyclo-SFLPVNL) has subsequently been all but forgotten in the academic literature, so to redress this we used tandem mass spectrometry and de novo transcriptomics to rediscover evolidine and decipher its biosynthetic origin from a short precursor just 48 residues in length. We also identify another six M. xanthoxyloides orbitides using the same techniques. These peptides have atypically diverse C-termini consisting of residues not recognized by either of the known proteases plants use to macrocyclize peptides, suggesting new cyclizing enzymes a wait discovery. We examined the structure of two of the novel orbitides by NMR, finding one had a definable structure, whereas the other did not. Mining RNA-seq and whole genome sequencingdata from other species of the Rutaceae familyrevealed a large and diverse family of peptides is encoded by similar sequences across the family and demonstrates how powerful de novo transcriptomics can be at accelerating the discovery of new peptide families.</p>

Project description:Genetically encoded unnatural amino acids provide powerful strategies for modulating the molecular functions of proteins in mammalian cells. However this approach has not been coupled to genome-wide measurements, because efficient unnatural amino acid incorporation is limited to readily transfectable cells and leads to very heterogeneous expression. We demonstrate that rapid piggybac integration of the orthogonal pyrrolysyl-tRNA synthetase (PylS)/tRNAPyl CUA pair (and its derivatives) into the mammalian genome enables efficient, homogeneous unnatural amino acid incorporation into target proteins in diverse cells, and we reveal the distinct transcriptional responses of ES cells and MEFs to amber suppression. Genetically encoding Nε-acetyl-lysine in place of six lysine residues in histone H3, that are known to be post-translationally acetylated, enables deposition of pre-acetylated histones into cellular chromatin, via a synthetic pathway that is orthogonal to enzymatic modification, allowing us to determine the consequences of acetylation at specific amino acids in histones on gene expression. mRNA was sequenced using polyA-enrichment and Truseq library preparation protocol. Two biological replicates were sequences for each cell line and condition

Project description:Robust analysis of both protein N- and C-termini can reveal novel N- and C-degrons that modify protein stability and shape the eukaryotic proteome. Herein, we designed a workflow, termed LysargiNase-assisted Analysis of Protein N- and C-Terminome (NAPT) by sequential and selective separating N- and C-termini on strong cation exchange chromatography (SCX). Taking advantage of N-terminal peptides’ reduced charge states at pH 2.7 and C-terminal peptides’ enhanced charge states at pH 8.5, an adequate shift of pH during SCX fractionation could easily lead to sequential elution of N-terminal, internal, and C-terminal peptides. Combining NAPT with multiple enzymatic digestion strategies, we identified 2458 human protein N-termini and 3056 human protein C-termini from Hela cell line. As N-terminal peptides generally bear two less positive charges than internal peptides at pH 2.7 after LysargiNase digestion, leaving one-positive-charge tolerance for histidine-containing N-terminal peptides, and C-terminal peptides were separated at pH 8.5 where histidine was neutrally charged, NAPT workflow showed minimal bias against histidine residues and excellent complementarity compared to its sister, the SAPT workflow, which adopted trypsin as protease. Taken together, 4285 protein N-termini and 4170 protein C-termini were identified by NAPT and SAPT, representing the largest human protein C-termini and the second largest human protein N-termini dataset so far, demonstrating their valuable potential in terminomic studies. Furthermore, we systematically analyzed sequences of identified protein termini and validated that their behavior obeyed several degron pathways.

Project description:We used customized peptide arrays of 163 TXNDC16 peptides to identify immunogenic TXNDC16 epitopes and asked whether discrimination of meningioma and control sera is possible with a specific subset selection of all immunogenic epitopes. CelluSpotsM-bM-^DM-" peptide arrays were manufactured by Intavis (Germany) with 163 TXNDC16 spanning peptides spotted as two replicate subarrays. 15-mer peptides overlapping by 10 amino acids were covalently bound to cellulose membranes with their C-termini. Please note that the non_normalized.txt contains Ch1 Mean values for all samples (each sequence represented in duplicates) and the identifiers in the 'index' column corresponds to those in the 'index' column in raw gpr files; sample data table contains classification values (for each sequence) described in the sample data processing field.

Project description:During our efforts to isolate potantial binding partners of Esat6, we isolated few peptides rich in phenylalanine residues that strongly interacted with Esat6. All peptides were less than fifty amino acids in length, One of them, Hcl1, when expressed in mycobacteria showed significant retardation in growth and survival within macrophages. Microarray analysis showed that Hcl1 affects a host of genes and cellular pathways.