Project description:Streptococcus suis is an important zoonotic pathogen that can cause meningitis and sepsis in both pigs and humans. In this study,we evaluated the genetic difference of 40 Streptococcus suis strains belonging to various sequence types by comparative genomic hybridization to identify genes associated with the variation in pathogenicity using NimbleGen’s tilling microarray platform. Application of Comparative Phylogenomics to Identify Genetic Differences Relating to Pathogenicity of Streptococcus suis
2014-05-20 | GSE40035 | GEO
Project description:Phylogenomics of Gesneriaceae using targeted capture of nuclear genes
Project description:Chinese yam (Dioscorea opposita Thumb.) is a highly nutritional perennial herbaceous rhizome. N-glycoforms from Chinese yam glycoprotein were analyzed, and the major glycoprotein in yam be identificated.
Project description:In this study, we employed a strategy to screen miRNA expression profiles in liver tissue by miRCURY LNA(tm) microRNA array analysis followed by TaqMan probe-based quantitative reverse transcription-PCR (qRT-PCR) to validate the miRNA expression profiles in serum and liver of two parallel rat drug-induced liver injury (DILI) models induced by a compound (acetaminophen, APAP) or an herb (Dioscorea bulbifera, DB).
Project description:Dioscorea tuber undergoes multiple morphological and bio-chemical changes during its 9 month growth period. A stage specific gel free analysis was done to understand the proteomic changes associated with tuber development and assign markers. On the basis of morphological traits the tuber life cycle was divided into four developmental stages namely; root initiation (S1), vegetative growth (S2), new tuber initiation (S3) and tuber maturation (S4) which was validated by principal component analysis (PCA). The first most comprehensive data set was generated by using the pooled genome information from Dioscorea + Solanum + Viridateplantae as reference set identifying 78.2% of the total 3,681 proteins. The over-representation analysis of proteins using PANTHER and KEGG MAPPER revealed both expected and novel biological processes relevant to each developmental stage. A high abundance of the enzymes of ascorbate-glutathione cycle, carbohydrate metabolism, Glycolysis, TCA cycle was detected during tuber degradation and formation. The Glycolytic and starch biosynthesis pathway were re-constructed using the information derived from the proteome data. Novel transcription factors (14) associated with oxidative stress tolerance were identified in D.alata proteome. In conclusion, the data set comprehensively describes the proteome of Dioscorea tuber and provided growth specific markers (APx, MDHAR, invertase for degradation and sucrose synthase for formation) that would pave the way to a systematic study of the tuber. The study provides information that may influence the direction of research for improving the productivity of this under-utilized crop.
Project description:Molecular phylogenomics investigates evolutionary relationships based on genomic data. However, despite genomic sequence conservation, changes in protein interactions can occur relatively rapidly and may cause strong functional diversification. To investigate such functional evolution, we here combine phylogenomics with interaction proteomics. We develop this concept by investigating the molecular evolution of the shelterin complex, which protects telomeres, across 16 vertebrate species from zebrafish to humans covering 450 million years of evolution. Our phylointeractomics screen discovers previously unknown telomere-associated proteins and reveals how homologous proteins undergo functional evolution. For instance, we show that TERF1 evolved as a telomere-binding protein in the common stem lineage of marsupial and placental mammals. Phylointeractomics is a versatile and scalable approach to investigate evolutionary changes in protein function and thus can provide experimental evidence for phylogenomic relationships.
