Project description:We investigate the relevance of RNA integrity in gene expression analysis as well as analysis methods to accommodate the possible effects of degradation using paired tumour and normal samples from colorectal cancer patients undergoing colonic resection.

Project description:Until now, acute respiratory distress syndrome (ARDS) has been a difficult clinical condition with a high mortality and morbidity rate, and is characterized by a build-up of alveolar fluid and impaired clearance. The underlying mechanism is not yet fully understood and no specific treatment available. Autophagy activation is associated with ARDS caused by different pathogenic factors. It represents a new direction of prevention and treatment of ARDS to restrain autophagy to a reasonable level through pharmacological and molecular genetic methods. Na, K-ATPase is the main gradient driver of pulmonary water clearance in ARDS and could be degraded by the autophagy-lysosome pathway to affect its abundance and enzyme activity. As a normal growth hormone in human body, insulin has been widely used in clinical for a long time. To investigate the association of insulin with Na, K-ATPase, autophagy and inflammatory markers in LPS-treated C57BL/6 mice by survival assessment, proteomic analysis, histologic examination, inflammatory cell counting, myeloperoxidase, TNF-α, IL-1β activity analysis etc. This was also verified on mouse alveolar epithelial type Ⅱ (AT Ⅱ) and A549 cells by transmission electron microscopy. We found that insulin restored the transport efficiency of Na, K-ATPase, inhibited the activation of autophagy and reduced the release of inflammatory factors caused by alveolar epithelial damage. The regulation mechanism of insulin on Na, K-ATPase by inhibiting autophagy function may provide new drug targets for the treatment of ARDS.

Project description:Haemonchus contortus has developed complexed and multifaceted mechanisms of immune evasion to enable the survival in the host. Generating excretion and secretion products (ESPs) to subvert or suppress the functions of host cytokines is a newly immune regulatory pattern found during recent years. TGF-β1 has critical immune regulatory functions in nematode infections. In this study, the co-immunoprecipitation was used to collect the molecules which bound to the goat TGF-β1 from ESPs, and the precipitates were identified by mass spectrometry using shotgun LC-MS / MS.

Project description:Tuberculosis infection activates the autoimmune system. However, the role of autoimmunity after Mycobacterium tuberculosis infection is unclear. In this study, liquid chromatography-tandem mass spectrometry (LC-MS/MS) combined with tandem mass spectrometry (TMT) was used to perform proteomic analysis of five spinal tuberculosis and five protruding disc tissue samples. The identification of key molecular mechanisms provides a molecular target for future treatment of spinal tuberculosis, which may significantly improve patients' quality of life and prognosis.

Project description:FGFR1 mediated changes in gene expression at different stages of JOCK1 prostate cancer progression JOCK1 mice which express a prostate localize inducible version of the FGFR1 gene (iFGFR1) were used to determine what are the changes in gene expression at distinct stages of JOCK1 tumor progression. Activation of iFGFR1 is mediated by biweekly treatements of JOCK1 mice with AP20187 (50mg/kg). Wild type mice were treated for 24 hours with CID as a control, while JOCK1 were treated with CID for 4, 12, 24 and 52 weeks. All these treatments began at 12 weeks of age. After treatment mouse prostates (ventral and dorso-lateral prostate lobes), were dissected, placed in RNAlater and incubated at -800C. Tissue was thawed and placed in TRIzol (Invitrogen) for RNA isolation according to the manufacture. Once RNA was removed, a RNA cleaning step was performed using Qiagen RNEasy columns as described by the manufacturer. Time points were performed in triplicate and each array represents a single prostate. Labeling and hybridization to the mouse Affymetrix gene array 430 2.0 was performed by the Baylor College of Medicine microarray core. All hybridizations were performed at the same time.

Project description:Tissues of Arabidopsis plants overexpressing artificial microRNAs were compared to wild_type and respective target gene mutants (duplicate arrays)

Project description:Ovarian cancer (OC) is the most lethal gynecologic malignancy, attributed by late diagnosis. Genetic alteration of BRCA1/2 was well known risk factors in people who does not occur ovarian cancer. There is a need for convenient and continuous diagnosis of ovarian cancer after genetic testing, and we intend to apply a blood biomarker-based liquid biopsy. In a retrospective study, 20 OC patients and 20 normal controls were used for plasma samples, and BRCA1/2 carriers accounted for half in each group. We applied the bottom-up proteomics approach to depleted plasma samples with a nano-flow LC-MS and analyzed protein data quantitatively.

Project description:Patients with major depressive disorder (MDD) have a high relapse rate and first prescribed selective serotonin reuptake inhibitors (SSRIs). The selection process of an antidepressant agent is primarily guided by trial and error. If patients do not benefit from the initial course of antidepressant medication for at least 4-6 weeks, additional therapeutic strategies are required to gain remission, including switching within and between classes of antidepressants. In order to discovery SSRI-related plasma protein markers, we designed a retrospective study. In this study, four longitudinal plasma samples were collected from 10 patients during the 10-week drug reaction period after being diagnosed with depression, and more than a thousand plasma proteins were identified by highly sensitive nanoflow liquid chromatography-tandem mass spectrometry (LC−MS/MS).

Project description:The purpose of this study is to find candidate biomarkers by analyzing metabolites and proteins with differential amounts in 10 ovarian cancer patient plasmas and 10 healthy female plasmas. Only MS files for plasma proteins are uploaded here. The metabolite quants were obtained using Biocrates AbsolutedIDQ p400, and MS data was not uploaded but only the quantitative value table was uploaded.

Project description:Protein reference databases are a critical part of producing efficient proteomic analyses. However, the method for constructing clean, efficient, and comprehensive protein reference databases is lacking. Existing methods either do not have contamination control procedures, or these methods rely on a three-frame and/or six-frame translation that sharply increases the search space and harms MS results. Herein we propose a framework for constructing a customized comprehensive proteomic reference database (CCPRD) from draft genomes and deep sequencing transcriptomes. Its effectiveness is demonstrated by incorporating the proteomes of nematocysts from endoparasitic cnidarian: myxozoans. By applying customized contamination removal procedures, contaminations in omic data were successfully identified and removed. This is an effective method that does not result in over-decontamination. This can be shown by comparing the CCPRD MS results with an artificially-contaminated database and another database with removed contaminations in genomes and transcriptomes added back. CCPRD outperformed traditional frame-based methods by identifying 35.2%-50.7% more peptides and 35.8%-43.8% more proteins, with a maximum 84.6% in size reduction. A BUSCO analysis showed that the CCPRD maintained a relatively high level of completeness compared to traditional methods. These results confirm the superiority of the CCPRD over existing methods in peptide and protein identification numbers, database size, and completeness. By providing a general framework for generating the reference database, the CCPRD, which does not need a high-quality genome, can potentially be applied to any organisms and significantly contribute to proteomic research.