Project description:Comparative proteome of extracted Hydra vulgaris AEP extracellular matrix form Wnt9/10 knock out and Azakenpaullone treated animals. Used to analyse the changes in molecular composition of the mesoglea (ECM) of normal and Wnt depleted animals

Project description:We constructed E. coli transcriptome under deoxynivalenol (DON) and nivalenol (NIV) condition from Fusarium spp. To identify differentially expressed genes in mycotoxin condition, we compared mycotoxin (DON and NIV) transcriptome to acetonitrile (ACN) transcriptome as the solvent of myxotoxin. As a result, 435-929 transcripts were identified from all conditions, respectively.

Project description:HLB is suggested to be caused by the phloem-limited fastidious prokaryotic α-proteobacterium “Candidatus Liberibacter spp.” Previous studies focused on the proteome and transcriptome analyses of citrus 5 to 35-week-after “Ca. L. spp.” inoculation. In this study, gene expression profiles was analyzed using mandarin of Citrus reticulate Blanco cv. jiaogan leaves after 2-year infection with “Ca. L. asiaticus”.

Project description:We demonstrate that post-column addition of organic solvents leads to a strong enhancement of electrospray stability in microflow LC-MS experiments improving the sensitivity across the entire gradient, for early eluting peptides by up to tenfold. Post-column solvent addition did not negatively affect chromatographic performance and resulted in an overall 28%-36% increase in identifications at both protein- and peptide-level. Post-column solvent addition can be easily adopted on any microflow LC-MS/MS system.

Project description:Collagen, a major component of the extracellular matrix, is significantly upregulated in colorectal liver metastasis (CRLM) compared to liver tissue. Expression levels of specific collagen types in CRLM resemble those in colorectal cancer (CRC) and colon tissue. We investigated whether the collagen hydroxylation pattern from the primary tumor also migrates with the metastatic tumor. The degree of collagen alpha-1(I) hydroxylation in colon, CRC, liver, and CRLM tissue in the same individuals (n=14) was studied with mass spectrometry. The degree of hydroxylation was investigated in 36 collagen alpha-1(I) peptides, which covered 54% of the triple helical region. The average degree of hydroxylation in liver tissue was similar to that in colon tissue. The overall degree of hydroxylation was significantly lower (9% +/- 14%) in CRC tissue and also significantly lower (12% +/-22%) in CRLM tissue compared to colon or liver tissue. Still, in previous research of liver and CRLM enzymes involved in collagen hydroxylation were found to be upregulated, whereas P4HB (4-prolyl hydroxylase beta unit) was downregulated. Furthermore, 11 peptides are present with a specific number of hydroxylations that are significantly different between CRLM and liver tissue; these peptides could be candidates for the detection of CRLM. For one of these eleven peptides, a matching naturally occurring peptide in urine has been identified as being significantly different between patients suffering from CRLM and healthy controls. We conclude that the degree of hydroxylation in CRC and CRLM tumor tissue is in general significantly downregulated in comparison to healthy colon and liver tissue. The hydroxylation pattern in CRLM resemble partly the pattern in liver, primary colorectal cancer and colon.

Project description:Candida albicans is an important human fungal pathogen in both immunocompetent and immunocompromised individuals. In response to environmental stimuli, C. albicans regulates complex phenotypic transitions between morphological states, mating competence, and biofilm formation. In addition, other processes related to virulence, stress resistance, and cell wall structure are also highly regulated. Based on the phenotypes of mutants lacking different kinases, it is clear that protein phosphorylation plays an important role in the regulation of these pathways. Here, we present a qualitative analysis of the phosphoproteome of C. albicans hyphae. We identified 19,590 unique peptides that corresponded to 15,906 unique phosphosites on 2,896 proteins. The ratios of serine, threonine and tyrosine phosphosites were 80.01%, 18.11%, and 1.81%, respectively. The majority of proteins (2,111) contained at least two detected phosphorylation sites. Consistent with findings in other fungi, cytoskeletal proteins were among the most highly phosphorylated proteins, and there were differences in GO terms for proteins with serine and threonine versus tyrosine phosphorylation sites. This large-scale analysis identified phosphosites in protein components of Mediator, an important transcriptional co-regulatory protein complex. In vitro studies revealed Cdk8 (Ssn3), a kinase within the Mediator complex, was sufficient to catalyze a subset of these phosphorylations suggesting the potential for autoregulation. These data represent the deepest single analysis of a fungal phosphoproteome, and will lay the groundwork for future analyses of the C. albicans phosphoproteome and specific phosphoproteins.

Project description:HLB is suggested to be caused by the phloem-limited fastidious prokaryotic α-proteobacterium “Candidatus Liberibacter spp.” Previous studies focused on the proteome and transcriptome analyses of citrus 5 to 35-week-after “Ca. L. spp.” inoculation. In this study, gene expression profiles was analyzed using mandarin of Citrus reticulate Blanco cv. jiaogan leaves after 2-year infection with “Ca. L. asiaticus”. The Affymetrix GeneChip® citrus genome were applied to study the molecular pathways mediated by “Ca. L. asiaticus” inoculated 3-year-old jiaogan seedlings. Each of them was graft-inoculated with one sweet orange scions with or without “Ca. L. asiaticus” in Dectember, 2009. RNA samples from three mandarin trees infected with 'Candidatus Liberibacter asiaticus' and three uninfected trees were used for affymatrix genochip

Project description:The transcriptomics changes induced in the human liver cell line HepG2 by 17 hepatotoxic compounds, 5 non-hepatotoxic compounds and solvent controls after treatment for 24h The study investigated differential gene expression in HepG2 cell line mRNA following 24 hours of exposure to 17 hepatotoxic compounds, 5 non-hepatotoxic compounds and solvent controls. Three biological replicates per compound/solvent. In total 105 arrays .

Project description:The transcriptomics changes induced in the human liver cell line HepG2 by low and high doses of acetaminophen and solvent controls after treatment for 4 time points (12h, 24h, 48h and 72h) The study investigated differential gene expression in HepG2 cell line mRNA following 12 to 72 hours of exposure to low and high doses of acetaminophen and solvent controls. Three biological replicates per compound/solvent.

Project description:Toxoplasma gondii is an intracellular parasite that causes the disease toxoplasmosis in humans. It is a member of the phylum Apicomplexa that also includes significant human pathogens such as Plasmodium spp. and Cryptosporidium spp. causing malaria and diarrheal disease, respectively. These parasites use a programmed sequence of secretory events to find, invade, and then reengineer their host cells to enable parasite growth and proliferation. After invasion, Toxoplasma secretes proteins for host cell remodelling and manipulation from dense granules. The site(s) of dense granule exocytosis, however, has been unknown. In Toxoplasma gondii, small subapical annular structures that are embedded in the inner membrane complex have been observed, but the role or significance of these apical annuli to plasma membrane function has also been unknown. We have identified four integral membrane proteins of the plasma membrane that occur specifically at these apical annular sites. These proteins are an LMBR-domain containing protein TgLMBD3, and three SNARE proteins TgStxPM, TgNPSN, and TgSyp7. Using widefield-microscopy, we discovered that depletion of each of these proteins results in reduced secretion of dense granule proteins, implicating the apical annuli as a site of exocytosis in Toxoplasma. To further understand the role of these proteins and the impact of their depletion on the parasite, we performed whole-cell quantitative proteomics in control and knockdown cell lines. Several hundred proteins have been identified and quantified in three biological replicates for every knockdown cell line and the untreated control line. The majority of enriched proteins in the knockdown cell lines are those packaged in dense granules, indicating their failure to be secreted outside the cell. The apical annuli are therefore sites of SNARE-mediated exocytosis of dense granules in Toxoplasma.