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101.
Ray O. Bahado-Singh Stewart F. Graham Onur Turkoglu Kathryn Beauchamp Trent C. Bjorndahl BeomSoo Han Rupasri Mandal Jenee Pantane Terry Kowalenko David S. Wishart Philip F. Stahel 《Metabolomics : Official journal of the Metabolomic Society》2016,12(3):42
We aim to identify candidate brain biomarkers for, and to elucidate the pathophysiology of closed traumatic brain injury (TBI). Nuclear magnetic resonance (NMR) based metabolomic analysis was performed on the whole brain of mice undergoing TBI using a validated technique. There were 10 TBI mice compared to 8 sham operated controls. A total of 45 metabolites were evaluated. There was a statistically significant alteration in concentrations of 29 metabolites in TBI brains as compared to controls (FDR <0.05). Profound disturbances of several metabolic pathways (FDR <1E-07), including pathways associated with purine, alanine, aspartate and glutamine and glutathione metabolism were observed. Also, a significant elevation in glutamate (the main excitatory neurotransmitter) and depression of GABA (the main inhibitory neurotransmitter) was observed. Four metabolites, ADP, AMP, NAD+, and IMP were the most important indicators of TBI, relative to normal controls. All were elevated in the TBI mice. A combination of these 4 biomarkers produced a perfect predictor of TBI status, AUC (95 % CI) = 1.0 (1.0, 1.0). We also detected significant disturbances in mitochondrial function, energy metabolism, neurotransmitter metabolism and other important biochemical pathways in TBI mouse brains. Further studies to assess the utility of metabolomics to detect and classify the severity of and assess the prognosis of TBI is warranted. 相似文献
102.
Metabolomics of biomarker discovery in ovarian cancer: a systematic review of the current literature
Onur Turkoglu Amna Zeb Stewart Graham Thomas Szyperski J. Brian Szender Kunle Odunsi Ray Bahado-Singh 《Metabolomics : Official journal of the Metabolomic Society》2016,12(4):60
Introduction
Metabolomics is the emerging member of “omics” sciences advancing the understanding, diagnosis and treatment of many cancers, including ovarian cancer (OC).Objectives
To systematically identify the metabolomic abnormalities in OC detection, and the dominant metabolic pathways associated with the observed alterations.Methods
An electronic literature search was performed, up to and including January 15th 2016, for studies evaluating the metabolomic profile of patients with OC compared to controls. QUADOMICS tool was used to assess the quality of the twenty-three studies included in this systematic review.Results
Biological samples utilized for metabolomic analysis include: serum/plasma (n = 13), urine (n = 4), cyst fluid (n = 3), tissue (n = 2) and ascitic fluid (n = 1). Metabolites related to cellular respiration, carbohydrate, lipid, protein and nucleotide metabolism were significantly altered in OC. Increased levels of tricarboxylic acid cycle intermediates and altered metabolites of the glycolytic pathway pointed to perturbations in cellular respiration. Alterations in lipid metabolism included enhanced fatty acid oxidation, abnormal levels of glycerolipids, sphingolipids and free fatty acids with common elevations of palmitate, oleate, and myristate. Increased levels of glutamine, glycine, cysteine and threonine were commonly reported while enhanced degradations of tryptophan, histidine and phenylalanine were found. N-acetylaspartate, a brain amino acid, was found elevated in primary and metastatic OC tissue and ovarian cyst fluid. Further, elevated levels of ketone bodies including 3-hydroxybutyrate were commonly reported. Increased levels of nucleotide metabolites and tocopherols were consistent through out the studies.Conclusion
Metabolomics presents significant new opportunities for diagnostic biomarker development, elucidating previously unknown mechanisms of OC pathogenesis.103.
Ray O. Bahado-Singh Stewart F. Graham BeomSoo Han Onur Turkoglu James Ziadeh Rupasri Mandal Anil Er David S. Wishart Philip L. Stahel 《Metabolomics : Official journal of the Metabolomic Society》2016,12(6):100
Introduction
Traumatic brain injury (TBI) is physical injury to brain tissue that temporarily or permanently impairs brain function.Objectives
Evaluate the use of metabolomics for the development of biomarkers of TBI for the diagnosis and timing of injury onset.Methods
A validated model of closed injury TBI was employed using 10 TBI mice and 8 sham operated controls. Quantitative LC–MS/MS metabolomic analysis was performed on the serum.Results
Thirty-six (24.0 %) of 150 metabolites were altered with TBI. Principal component analysis (PCA) and Partial least squares discriminant analysis (PLS-DA) analyses revealed clear segregation between TBI versus control sera. The combination of methionine sulfoxide and the lipid PC aa C34:4 accurately diagnosed TBI, AUC (95 % CI) 0.85 (0.644–1.0). A combination of metabolite markers were highly accurate in distinguishing early (4 h post TBI) from late (24 h) TBI: AUC (95 % CI) 1.0 (1.0–1.0). Spermidine, which is known to have an antioxidant effect and which is known to be metabolically disrupted in TBI, was the most discriminating biomarker based on the variable importance ranking in projection (VIP) plot. Several important metabolic pathways were found to be disrupted including: pathways for arginine, proline, glutathione, cysteine, and sphingolipid metabolism.Conclusion
Using serum metabolomic analysis we were able to identify novel putative serum biomarkers of TBI. They were accurate for detecting and determining the timing of TBI. In addition, pathway analysis provided important insights into the biochemical mechanisms of brain injury. Potential clinical implications for diagnosis, timing, and monitoring brain injury are discussed.104.
105.
Günter Schäfer Günes Onur Michael Schlegel 《Journal of bioenergetics and biomembranes》1980,12(3-4):213-232
This report summarizes structure/activity investigations on 3-O-substituted adenine nucleotides derived from 3-O-naphthoyl-ADP. Among these are fluorescent nucleotides, which allow one to differentiate between two types of binding sites on the inner surface of the mitchondrial inner membrane. One type of site is highly fluorescent but is not located on F1. It is attributed to the nucleotide carrier, because it stays on the membrane when F1 is removed. The other type of sites, giving no or only very low fluorescence, is located on F1 and shows high affinity to these analogs, which is modulated by the energy state of the membrane. On the basis of kinetic data, stability of magnesium complexes, and fluorescence properties, conclusions are drawn on the probable conformation of these nucleotides in the bound state. They allow one to explain why these nucleotide analogs are extremely strong inhibitors of oxidative phosphorylation and photophosphorylation, why the ADP derivatives cannot be phosphorylated, and why the ATP analogs are no substrates of ATPase. Furthermore, the results allow some insight into the mechanism of phosphorylation and the structural properties at the catalytic site.Abbreviations AP5A
5,5-diadenosinepentaphosphate
- SMP
submitochondrial particles
- F-AD(T,M)P
fluorescent AD(T,M)P = 3-O-(5-dimethylaminonaphthoyl-1)-AD(T,M)P
- FCCP
carbonylcyanide 4-trifluoromethoxyphenylhydraxone 相似文献
106.
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109.
Phanerochaete chrysosporium soluble proteome as a prelude for the analysis of heavy metal stress response 总被引:1,自引:0,他引:1
A 2-D reference map in pI range 3-10 was constructed for the soluble protein fraction of Phanerochaete chrysosporium growing vegetatively under standard conditions. Functional annotation could be made for 517 spots out of 720 that were subjected to MALDI-TOF-MS analysis, according to the specific accession numbers from the P. chrysosporium genomic database. Further analysis of the data revealed 314 distinct ORFs, 118 of which yielded multiple spots on the master gel. Functional classification of the proteins was made according to the eukaryote orthologous groups defined in the organism's genome website. The functional class of PTMs, protein turnover and chaperones was represented with the highest number (63) of the identified ORFs. Six proteins were assigned to the hypothetical proteins and 29 were predicted to have a signal peptide sequence. Subcellular localization predictions were also made for the identified proteins. Of the protein spots detected on the master gel, 380 were found to be probably phosphorylated and 96 of these matched to the identified proteins. The reference map was efficiently used in the identification of the proteins differentially expressed under cadmium and copper stress. Three new ribosomal proteins as well as zinc-containing alcohol dehydrogenase, glucose-6-phosphate isomerase, flavonol/cinnamoyl-CoA reductase, H+-transporting two-sector ATPase, ribosomal protein S7, ribosomal protein S21e, elongation factor EF-1 alpha subunit were demonstrated as the most strongly induced. 相似文献
110.
The magnetic compass of migratory birds has been suggested to be light-dependent. Retinal cryptochrome-expressing neurons and a forebrain region, "Cluster N", show high neuronal activity when night-migratory songbirds perform magnetic compass orientation. By combining neuronal tracing with behavioral experiments leading to sensory-driven gene expression of the neuronal activity marker ZENK during magnetic compass orientation, we demonstrate a functional neuronal connection between the retinal neurons and Cluster N via the visual thalamus. Thus, the two areas of the central nervous system being most active during magnetic compass orientation are part of an ascending visual processing stream, the thalamofugal pathway. Furthermore, Cluster N seems to be a specialized part of the visual wulst. These findings strongly support the hypothesis that migratory birds use their visual system to perceive the reference compass direction of the geomagnetic field and that migratory birds "see" the reference compass direction provided by the geomagnetic field. 相似文献