Project description:Parasitoids were considered to have the ability to synthesize the lipid. The cotton aphids were parasitized by Lysiphlebia japonica, and Lysiphlebia japonica obtained lipids from cotton aphids. In our study,we get the 3 days parasitized aphids and unparasitized aphids and analysis the expression of the genes involved in the lipid related pathway.

Project description:Parasitoids were considered to have the ability to synthesize the lipid. The cotton aphids were parasitized by Lysiphlebia japonica, and Lysiphlebia japonica obtained lipids from cotton aphids. In our study, we get the 3 days larva and pupa from cotton aphids and analysis the expression of the genes involved in the lipid related pathway of these two developmental stages.

Project description:During the pathogenesis of virus disease, lots of changes occur in plant hosts including the altered gene expression profiles. Rice stripe virus (RSV) is the type member of Tenuivirus, transmitted by Laodelphax striatellus in a circulative propagative man; To investigate the molecular differences in two japonica rice genotypes WuYun3 and KT95-418 in response to RSV infection, Affymetrix rice genome array were used to analyze and compare their transcriptional profiles. Experiment Overall Design: Nine-day old 20 rice seedlings were exposed to approximately 100 viruliferous small brown planthoppers (Laodelphax striatellus Fall) for two days to be innoculated by RSV. Then they were transplanted in insect-free greenhouse at 25±3C with a daily photope

Project description:CD1d is an atypical MHC class I molecule which binds endogenous and exogenous lipids and can activate natural killer T (NKT) cells through the presentation of lipid antigens. CD1d surveys different cellular compartments including the secretory and the endolysosomal pathway and broadly binds lipids through its two hydrophobic pockets. Purification of the transmembrane protein CD1d for the analysis of bound lipids is technically challenging as the use of detergents releases CD1d-bound lipids. To address these challenges, we have developed a novel approach based on Sortase A-dependent enzymatic release of CD1d at the cell surface of live mammalian cells, which allows for single step release and affinity tagging of CD1d for shotgun lipidomics. Using this system, we demonstrate that CD1d carrying the Sortase A recognition motif shows unimpaired subcellular trafficking through the secretory and endolysosomal pathway and is able to load lipids in these compartments and present them to NKT cells. Comprehensive shotgun lipidomics demonstrated that the spectrum and abundance of CD1d-associated lipids is not representative of the total cellular lipidome but rather characterized by preferential binding to long chain sphingolipids and glycerophospholipids. As such, sphingomyelin species recently identified as critical negative regulators of NKT cell activation, represented the vast majority of endogenous CD1d-associated lipids. Moreover, we observed that inhibition of endolysosomal trafficking of CD1d surprisingly did not affect the spectrum of CD1d-bound lipids, suggesting that the majority of endogenous CD1d-associated lipids load onto CD1d in the secretory rather than the endolysosomal pathway. In conclusion, we present a novel system for the analysis of CD1d-bound lipids in mammalian cells and provide new insight into the spectrum of CD1d-associated lipids, with important functional implications for NKT cell activation.

Project description:Although numerous researches on schistosomiasis japonica have been performed using laboratory animal models, the comparison of gene expression profiles of S. japonicum from the different laboratory animals and natural hosts is still a gap. We systematically compared the gene expression profiles of schistosomes from different laboratory animals and water buffaloes. The findings of this study provide the basis for schistosomiasis research in different mammalian hosts at transcriptional level and valuable resource for the screening of anti-schistosomal intervention targets.

Project description:Wild type thymi were transplanted into a competitive (wild type hosts), or non-competitive (Rag2-/-γc-/-KitW/Wv hosts) environment. Triple negative 2 and 3 (TN2/3) stages were sorted 14 days afetr transplantation and separated for cells of host or donor origin. Global gene expression data for TN2/3 cells, that were young, old with, and old without competition were compared.

Project description:Schistosome parasites lay up to a thousand eggs per day inside the veins of their mammalian hosts. The immature eggs deposited by females against endothelia of venules will embryonate within days. Approximately 30% of the eggs will migrate to the lumen of the intestine to continue the parasite life cycle. Many eggs, however, are trapped in the liver and intestine causing the main pathology associated with schistosomiasis mansoni and japonica, the liver granulomatous response. Excretory/Secretory egg proteins drive much of egg-induced pathogenesis of schistosomiasis mansoni, and Schistosoma japonicum induce a markedly distinct granulomatous response to that of S. mansoni.

Project description:Gupta2009 - Eicosanoid Metabolism Integrated model of eicosanoid metabolism and signaling based on lipidomics flux analysis. This model is described in the article: An integrated model of eicosanoid metabolism and signaling based on lipidomics flux analysis. Gupta S, Maurya MR, Stephens DL, Dennis EA, Subramaniam S. Biophys. J. 2009 Jun; 96(11):4542-51. Abstract: There is increasing evidence for a major and critical involvement of lipids in signal transduction and cellular trafficking, and this has motivated large-scale studies on lipid pathways. The Lipid Metabolites and Pathways Strategy consortium is actively investigating lipid metabolism in mammalian cells and has made available time-course data on various lipids in response to treatment with KDO(2)-lipid A (a lipopolysaccharide analog) of macrophage RAW 264.7 cells. The lipids known as eicosanoids play an important role in inflammation. We have reconstructed an integrated network of eicosanoid metabolism and signaling based on the KEGG pathway database and the literature and have developed a kinetic model. A matrix-based approach was used to estimate the rate constants from experimental data and these were further refined using generalized constrained nonlinear optimization. The resulting model fits the experimental data well for all species, and simulated enzyme activities were similar to their literature values. The quantitative model for eicosanoid metabolism that we have developed can be used to design experimental studies utilizing genetic and pharmacological perturbations to probe fluxes in lipid pathways. This model is hosted on BioModels Database and identified by: BIOMD0000000436 . To cite BioModels Database, please use: BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models . To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.

Project description:Lonicera japonica Thunb is a typical Chinese medicinal material with the homology of medicine and food. Post-translational modification (PTM) of proteins can significantly affect protein structure and function, and plays a very important regulatory role in plant development. However, to date, little is known about the functions of PTM in L. japonica. Therefore, the study of lysine succinylation during the floral developmental stages will help to understand the mechanism of the secondary metabolism of L. japonica. In this study, we first analyzed lysine succinylation exist in L. japonica, and found lysine succinylation is highly abundant in juvenile bud stage than gold flowering stage. Then a highly efficient enrichment method for succinylation peptides was used to identify 586 succinylation modification sites in 303 proteins in L. japonica. Our bioinformatics analysis further revealed that the succinylated proteins are involved in many important biological processes including TCA, amino acid metabolism and secondary metabolism. With the development of flowering stage of L. japonica, the succinylation degree of aspartate transaminase was up-regulated while 4-coumarate-CoA ligase was down-regulated, suggesting that succinylation of proteins is important for the bioactive compounds’ biosynthesis process in L. japonica. Protein modification in vitro also verified the impact of succinylation on both 4CL and AT enzyme activity would be changed. As a consequence, current examine provides new insight into the molecular mechanism underlying the accumulation of active ingredients in L. japonica at the post-translational modification level.

Project description:Phosphopeptide abundances in 3-week-old Oryza sativa (japonica) seedlings under 50uM ABA treatment for 0, 15, 30, 90min.