Project description:Non-targeted LC-MS/MS analysis of extracts from several plants. Acquisition in positive or negative ion mode. samples of plants by Republic of Korea.

Project description:Analyses of Heteropterys umbellata (Malpighiaceae) stems and leaves extracts. Plants were collected in two different Brazilian States (Sao Paulo and Minas Gerais). Dried plant material was extracted with EtOH80%. Positive ionization mode analyses. LC-MS/MS performed in a Shimadzu HPLC using a Phenomenex C18-Luna (250 mm x 4.6 mm, 5.0 um) column and an Amazon SL (Bruker Daltonics) mass spectrometer (ion trap) equipped with an ESI source. Auto MSn mode for exploratory analysis.

Project description:Nicotiana plants Targeted Locus (Loci)

Project description:Members of the Caryophyllaceae Juss. family possess anabolic, adaptogenic, radioprotective, antitumoral and hemorheological properties and have been used in medical practice for the treatment of various inflammatory disorders. Macrophages are key immune cells that coordinate the inflammatory reaction. To identify the effects of Silene sendtneri and Silene roemeri on macrophage activation, primary human macrophages were cultured with extracts of these plants .We used microarrays to determine the global expression pattern induced by the extracts in macrophages.

Project description:Trichoderma harzianum CECT 2413 expression in liquid basal medium and in the presence of glucose, chitin or tomato plants. Four different experimental conditions were carried out: basal (MS), glucose (MS-G), chitin (MS-Q) and tomato plant (MS-P). Two biological replicates were analyzed by microarray for each experimental condition. Three independent cultures of mycelium were pooled for each biological replicate.

Project description:Identification of different Trichuris spp. using MALDI-TOF MS

Project description:BackgroundReliable high-throughput microbial pathogen identification in human urine samples is crucial for patients with cystitis symptoms. Currently employed methods are time-consuming and could lead to unnecessary or inadequate antibiotic treatment. Purpose of this study was to assess the potential of mass spectrometry for uropathogen identification from a native urine sample.MethodsIn total, 16 urine samples having more than 105 CFU/mL were collected from clinical outpatients. These samples were analysed using standard urine culture methods, followed by 16S rRNA gene sequencing serving as control and here described culture-independent MALDI-TOF/TOF MS method being tested.ResultsHere we present advantages and disadvantages of bottom-up proteomics, using MALDI-TOF/TOF tandem mass spectrometry, for culture-independent identification of uropathogens (e.g. directly from urine samples). The direct approach provided reliable identification of bacteria at the genus level in monobacterial samples. Taxonomic identifications obtained by proteomics were compared both to standard urine culture test used in clinics and genomic test based on 16S rRNA sequencing.ConclusionsOur findings indicate that mass spectrometry has great potential as a reliable high-throughput tool for microbial pathogen identification in human urine samples. In this case, the MALDI-TOF/TOF, was used as an analytical tool for the determination of bacteria in urine samples, and the results obtained emphasize high importance of storage conditions and sample preparation method impacting reliability of MS2 data analysis. The proposed method is simple enough to be utilized in existing clinical settings and is highly suitable for suspected single organism infectious etiologies. Further research is required in order to identify pathogens in polymicrobial urine samples.

Project description:RATIONALE: Chemoprevention therapy is the use of certain drugs to try to prevent the development or recurrence of cancer. The use of sulindac may be an effective way to prevent colon cancer. Eating a diet rich in fruits and vegetables appears to reduce the risk of some types of cancer. Curcumin, rutin, and quercetin are compounds found in plants that may prevent the development of colon cancer. PURPOSE: Randomized clinical trial to study the effectiveness of sulindac, curcumin, rutin, and quercetin in preventing colon cancer.

Project description:Analytical techniques currently available for the characterization of mixtures of microorganisms are generally based on next-generation sequencing. Motivated to develop practical and less-expensive methods for characterizing such mixtures, we propose, as an alternative or complement, the use of matrix-assisted laser-desorption and ionization time-of-flight mass spectrometry (MALDI-TOF MS), which is capable of high-resolution discrimination between species and even between biotypes within species. Potential approaches employing this technique for such characterization are discussed along with impediments to their successful employment. As a consequence, our rationale has been to capitalize on the powerful algorithms currently available for spectral comparison. Following this rationale, the first priority is to ensure the generation of MALDI-TOF MS spectra from mixtures of microorganisms that contain manageable peak complexities and that can be handled by the existing spectral comparison algorithms, preferably with the option to archive and re-run sample preparations and to pipette replicates of these onto MALDI-TOF MS sample plates. The second priority is to ensure that database entry is comparably facile to sample preparation so that large databases of known microorganism mixture MALDI-TOF MS spectra could be readily prepared for comparison with the spectra of unknown mixtures. In this article, we address the above priorities and generate illustrative MALDI-TOF MS spectra to demonstrate the utility of this approach. In addition, we investigate methods aimed at chemically modulating the peak complexity of the obtained MALDI-TOF MS spectra.

Project description:Transcriptome data of several plants.