Project description:Detailed investigation of extremely severe pathological conditions present in ancient human skeletons is important because they can illuminate the breadth of potential interactions between humans and disease etiologies in the past. Here, we applied palaeoproteomics to investigate the bacterial pathogenic factors and host defense response to an ancient human skeletal individual with severe oral pathology. This female skeleton, from the Okhotsk period (i.e., 5th–13th century) of northern Japan, poses abnormal deposition of large amounts of dental calculus and oral dysfunction due to severe periodontal disease. A shotgun mass-spectrometry analysis identified 81 human proteins and 15 bacterial proteins from her calculus. Two pathogenic or bio-invasive proteins originating from two of the three “red complex” bacteria, the core species associated with severe periodontal disease in modern humans, as well as additional two bio-invasive proteins of periodont-associated bacteria were identified. Human proteins associated with the defense response system were identified, but their proportion was mostly similar to that reported in ancient and modern human individuals with lower calculus deposition. These results suggest that the bacterial etiology was similar and the host defense response was not necessarily higher in ancient individuals with abnormal deposition of large amounts of dental calculus.

Project description:The evolutionarily conserved cohesin complex is crucial for holding sister chromatids together from the time of DNA replication until their segregation during the metaphase to anaphase transition. Human diseases associated with with mutations in the cohesin network are termed "cohesinopathies". Scc2 is required for loading cohesin onto DNA prior to DNA replication. Cornelia de Lange syndrome (CdLS), a developmental disorder characterized by growth and intellectual impairment is caused by mutations in Scc2. How mutations in Scc2 gives rise to these developmental defects is currently unknown, as overt defects in chromosome segregation are not observed in CdLS patients. One hypothesis is that, reduced binding of Scc2 causes gene misregulation. To further explore this idea ChIP-seq was performed using an scc2-4 mutant. We observed from the analysis, we observe reduce binding of Scc2 to Pol II transcribed genes (snoRNAs, ribosomal protein genes) and pol II transcribed genes (tRNAs). Studies are currently underway to examine the biological implications of this observation. Examining genome-wide binding of scc2-4 mutant

Project description:Here we show the potential of proteins preserved in Pleistocene eggshell for addressing a longstanding controversy in human and evolution: the identity of the extinct bird that laid the eggs which were exploited by Australia’s first inhabitants. The eggs had been originally attributed to the iconic extinct flightless Genyornis newtoni, and subsequently dated to before 50 ±5 ka by Miller et al. (2016). This was taken to represent the extinction date for this endemic megafaunal species and thus implied a role of humans in its demise. A contrasting hypothesis, according to which the eggshell was laid by a large megapode (mound-builder), would therefore acquit humans of their responsibility in the extinction of Genyornis. Ancient protein sequences were reconstructed and used to assess the evolutionary proximity of the undetermined eggshell to extant birds, rejecting the megapode hypothesis. Ancient DNA could not be retrieved from these highly degraded samples, but morphometric data supported the attribution of the eggshell to Genyornis. When used in triangulation to address well-defined hypotheses, palaeoproteomics is a precious tool for reconstructing the evolutionary history of extinct and extant species. Here we show that the identification of Genyornis eggshell implies a more nuanced understanding of the modes of interactions between humans and their environment.

Project description:In this project we have applied palaeoproteomics to study archaeological shell beads dating back to the beginning of the 7th mill. cal BCE and recovered from a prehistoric site in Jordan (Ba'ja). These beads were made of mollusc shells and were of unknown origin, but suspected to be made of larger bivalves such as Tridacna or Spondylus sp. The aim of the study was to analyse ancient proteins extracted from these beads in order to infer their biological origin. Tiny amounts of ancient samples were used and the extracted proteins were analysed by high resolution liquid chromatography coupled with tandem mass spectrometry (HPLC-MS/MS). In order to identify obtained peptides, we have created an ‘in-house’ molluscan protein database, by gathering molluscan sequences (proteins and transcriptomes), which were downloaded from publicly available databases in NCBI. Searching against this comprehensive database, we were able to identify a number of shell proteins from Tridacna sp., the giant clam shells. Our study reports the oldest molluscan protein sequences ever recovered that come from a very warm environment.

Project description:Palaeoproteomic analysis of skeletal elements is increasingly used to study topics such as human evolution. However, many of the skeletal elements that are analysed have been stored and handled over long time periods, and have therefore accumulated contaminating proteins, which may complicate analysis of the endogenous ancient proteome. In this study, we evaluate five commonly used approaches for decontamination in palaeoproteomics, using a Pleistocene Equus sp. bone that was artificially contaminated with modern dog saliva and fur. First, we show that contamination affects reconstruction of the ancient proteome, even when the potential for contamination is not taken into account. Thereafter, our results show that although most decontamination methods reduce contamination, only a brief bleach wash seemingly returns the proteome to its original composition. None of the decontamination approaches are found to damage the endogenous proteome. Decontamination may, however, significantly improve recovery of low-abundance proteins.

Project description:To gain insight into the functions of salt-regulated miRNAs, target genes were identified through degradome sequencing approach. Three cotton RNA libraries were constructed and sequenced under normal consideration, osmotic and ionic stress. A total of 73,988,644 reads represented by 3,254,054 unique reads from the 5’ ends of uncapped and poly-adenylated RNAs were obtained. The PairFinder software was used to identify the sliced targets for the known miRNAs and novel miRNAs. These sequences were further compared with transcriptome sequencing data of G. arboretum and G. raimondii. We obtained the data from (Cotton Genome Project, http://cgp.genomics.org.cn/page/species/index.jsp).Based on degradome sequencing, 31 target genes were identified for 20 cotton miRNA families. The abundance of transcripts was plotted for each transcript. Conserved miRNAs target conserved homologous genes in diverse plant species. Three cDNA libraries were constructed using total RNA obtained from control samples (CK), the 4 h and 5 d salt-treated samples. A total of 74,351,180 sequence reads were obtained from three libraries. After removing the 3p and 5p adapter sequences and filtering out low quality ‘‘n’’ sequences, 864,720, 1,217,757 and 1,171,577 clean reads remained in the CK, 4 h and 5 d samples, respectively.

Project description:RNAseq was carried out to identify the transcriptomic changes that occur in healthy adult volunteers given either placebo or metformin from 3-days before to 3-days after live-attenuated YF-17D vaccination. Whole blood was collected at baseline (before placebo/metformin therapy), before YF-17D vaccination, Day 1, Day 3, Day 7 and Day 10 post YF-17D vaccination for RNAseq.

Project description:Muscle biopsy samples were obtained from two groups of male subjects prior to endurance training. The samples were used to predict training responses. Baseline gene expression involving 30 probe sets was able to classify subjects into high and low responders. Resting skeletal muscle sample after an overnight fast.

Project description:This study was designed to evaluate similarities and differences between transcriptional responses of developing Th17 cells to the prolyl-tRNA synthetase inhibitor, halofuginone, and the mTOR inhibitor, rapamycin. Further comparisons between wild-type and Gcn2-/- Th17 cells allow for investigation into which gene modules regulated by halofuginone or rapamycin treatment require Gcn2. Murine CD4+ CD25- T cells were magnetically isolated from wild-type or Gcn2-/- T cells. These cells were activated through anti-CD3/ anti-CD28 antibodies and polarized into Th17 cells using TGFb plus IL-6. 10 nM halofuginone, 10 nM rapamycin, or vehicle control (DMSO) were added to cultures at the time of activation. Cells were harvested at 4, 18, or 72 hours post-activation and differentiation. RNA was isolated from each sample and used for microarray analysis. Each culture condition and time-point was repeated twice in independent experiments using cells isolated from different wild-type or Gcn2-/- mice. Vehicle versus halofuginone, vehicle versus rapamycin, halofuginone versus rapamycin. Gcn2-/- versus wild-type T cells treated with vehicle, halofuginone, or rapamycin.

Project description:The aim of this study was to identify differential gene expression resulting from the inhibition of RORgt in human CD4+ T cells. Human CD4+ T cells were cultured with anti-CD3/anti-CD28 mAb for 20 to 60 hours concurrent with exposure to Vehicle (DMSO), TMP778 (0.2 uM) or TMP776 (0.2 uM). All samples were then processed for RNA extraction, labeling, and hybridization to Affymetrix arrays.