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821.
Sebastian Hogl Frauke van Bebber Bastian Dislich Peer‐Hendrik Kuhn Christian Haass Bettina Schmid Stefan F. Lichtenthaler 《Proteomics》2013,13(9):1519-1527
The aspartyl protease BACE1 cleaves neuregulin 1 and is involved in myelination and is a candidate drug target for Alzheimer's disease, where it acts as the β‐secretase cleaving the amyloid precursor protein. However, little is known about other substrates in vivo. Here, we provide a proteomic workflow for BACE1 substrate identification from whole brains, combining filter‐aided sample preparation, strong‐anion exchange fractionation, and label‐free quantification. We used bace1‐deficient zebrafish and quantified differences in protein levels between wild‐type and bace1 ?/? zebrafish brains. Over 4500 proteins were identified with at least two unique peptides and quantified in both wild‐type and bace1 ?/? zebrafish brains. The majority of zebrafish membrane proteins did not show altered protein levels, indicating that Bace1 has a restricted substrate specificity. Twenty‐four membrane proteins accumulated in the bace1 ?/? brains and thus represent candidate Bace1 substrates. They include several known BACE1 substrates, such as the zebrafish homologs of amyloid precursor protein and the cell adhesion protein L1, which validate the proteomic workflow. Additionally, several candidate substrates with a function in neurite outgrowth and axon guidance, such as plexin A3 and glypican‐1 were identified, pointing to a function of Bace1 in neurodevelopment. Taken together, our study provides the first proteomic analysis of knock‐out zebrafish tissue and demonstrates that combining gene knock‐out models in zebrafish with quantitative proteomics is a powerful approach to address biomedical questions. 相似文献
822.
Sandra Techritz Susanne Lützkendorf Esther Bazant Silke Becker Joachim Klose Markus Schuelke 《Proteomics》2013,13(1):179-195
Mitochondria fulfill many tissue‐specific functions in cell metabolism. We set out to identify differences in the protein composition of mitochondria from five tissues frequently affected by mitochondrial disorders. The proteome of highly purified mitochondria from five mouse organs was separated by high‐resolution 2DE. Tissue‐specific spots were identified through nano‐LC/ESI‐MS/MS and quantified by densitometry in ten biological replicates. We identified 87 consistently deviating spots representing 48 proteins. The percentage of variant spots ranged between 4.2% and 6.0%; 21 proteins having tissue‐specific isospots. Consistent tissue‐specific processing/regulation was seen for carbamoyl‐phosphate‐synthase, aldehyde‐dehydrogenase 2, ATP‐synthase α‐chain, and isocitrate‐dehydrogenase α‐subunit. Thirty tissue‐specific proteins were associated with mitochondrial disorders in humans. We further identified alcohol‐dehydrogenase, catalase, quinone‐oxidoreductase, cyclophilin‐A, and Upf0317, a potential biotin‐carboxyl‐carrier protein, which had not been annotated as “mitochondrial” in Gene Ontology or MitoCarta databases. Their targeting to the mitochondria was verified by transfection of full‐length GFP‐tagged plasmids. Given the high evolutionary conservation of mitochondrial metabolic pathways, these data further annotate the mitochondrial proteome and advance our understanding of the pathophysiology and tissue‐specificity of symptoms seen in patients with mitochondrial disorders. The generation of 2D electrophoretic maps of the mitochondrial proteome using tissue specimens in the milligram range facilitates this technique for clinical applications and biomarker research. 相似文献
823.
Streptococcus mutans is considered to be the most cariogenic organism. Carolacton, isolated from the myxobacterium Sorangium cellulosum, shows the ability to disturb S. mutans biofilm viability that makes it a potential anti‐biofilm drug. However, the molecular mechanism of carolacton remains to be elucidated. In order to use proteomics to characterize the effect of carolacton, we constructed a 2DE‐based proteome reference map of the cytoplasmic and extracellular proteins for S. mutans in the present study. In total, 239 protein spots representing 192 different cytoplasmic proteins were identified by MALDI‐TOF MS and PMF. This represents the highest number of identified proteins so far for S. mutans UA159 in the pI range of 4–7 and would benefit further research on the physiology and pathogenicity of this strain. Based on the constructed reference map, the inhibitory effects of carolacton on S. mutans biofilm and planktonic‐growing cells were investigated. The results of the comparative proteome analysis indicate that carolacton exerts its inhibitory effects by disturbing the peptidoglycan biosynthesis and degradation and thereby causes damages to the integrity of the cell envelope, leading ultimately to cell death. 相似文献
824.
Kondethimmanahalli H. Chandramouli Swagatika Dash Yu Zhang Timothy Ravasi 《Biofouling》2013,29(7):789-802
Vibrio spp. have the ability to form biofilms, which may contribute to the subsequent successful colonization by microfouling and macrofouling organisms. The effects of an antifouling compound, poly-ether B, on Vibrio sp. 010 were investigated using flow cytometry, proteomics, and metabolomics. A 2-D gel-based proteomic analysis was used to identify proteins responsive to poly-ether B treatment. The profiles of biofilm metabolites were analyzed by ultra-performance liquid chromatography-mass spectrometry. Poly-ether B caused a significant reduction in viability. The proteins affected by the treatment were related to nucleotide metabolism, the glyoxylate cycle, and stress responses. Metabolites such as tripeptides, fatty acids, and quorum-sensing molecules were regulated differentially. Down-regulation of proteins and metabolites potentially led to a loss in colonisation ability, thereby affecting the structure of the biofilm. These results suggest that the proteins and metabolites identified may serve as target molecules for potent antifouling compounds. 相似文献
825.
826.
Hiroaki Kobayashi Haru Okamoto Akira Murakami Takeshi Iwata 《Experimental Animals》2014,63(3):305-310
The central region of the primate retina is called macula. The fovea is located at the
center of the macula, where the photoreceptors are concentrated to create neural network
adapted for high visual acuity. Damage to the fovea by macular dystrophies and age-related
macular degeneration (AMD) can reduce the central visual acuity. The molecular mechanisms
leading to these diseases are most likely dependent on the proteins in macula differ from
that in peripheral retina in expression level. Previously, we reported an early onset
macular degeneration with drusen in cynomolgus monkey pedigrees. These monkeys show
similar fundus findings of early stage of AMD at 2 years after birth. To elucidate
mechanism of drusen formation and to find disease biomarkers for early stage of AMD, we
performed plasma proteome analysis. Plasma samples were collected from four affected and
control monkeys within the same pedigree. Successful fractionation of the plasma proteins
by ProteoMiner and Gelfree8100 were confirmed by SDS-PAGE. Total of 245 proteins were
identified from eight samples. From the results of spectral counting, we selected some
proteins, Apolipoprotein E, Histidine-rich glycoprotein, and Retinol-binding protein 4 as
candidate proteins that would be related with drusen formation. Candidate proteins would
be potentially beneficial as biomarkers for human AMD. One of the identified proteins,
Apolipoprotein E (ApoE), is structural component of drusen and also related with other
neurodegenerative disease like Alzheimer disease. In this plasma proteome analysis, ApoE
would be one of the possible factors of early drusen formation in these cynomolgus monkey
pedigrees. 相似文献
827.
828.
Baojian Guo Yanhong Chen Chuan Li Tianya Wang Rui Wang Bo Wang Sha Hu Xiaofen Du Hongyan Xing Xiao Song Yingyin Yao Qixin Sun Zhongfu Ni 《Proteomics》2014,14(9):1071-1087
To better understand the underlying molecular basis of leaf development in maize, a reference map of nuclear proteins in basal region of seedling leaf was established using a combination of 2DE and MALDI‐TOF‐MS. In total, 441 reproducible protein spots in nuclear proteome of maize leaf basal region were detected with silver staining in a pH range of 3–10, among which 203 spots corresponding to 163 different proteins were identified. As expected, proteins implicated in RNA and protein‐associated functions were overrepresented in nuclear proteome. Remarkably, a high percentage (10%) of proteins was identified to be involved in cell division and growth. In addition, comparative nuclear proteomic analysis in leaf basal region of highly heterotic hybrid Mo17/B73 and its parental lines was also performed and 52 of 445 (11.69%) detected protein spots were differentially expressed between the hybrid and its parental lines, among which 16 protein spots displayed nonadditively expressed pattern. These results indicated that hybridization between two parental lines can cause changes in the expression of a variety of nuclear proteins, which may be responsible for the observed leaf size heterosis. 相似文献
829.
ESTÍBALIZ LARRAINZAR JOHANNA A. MOLENAAR STEFANIE WIENKOOP ERENA GIL‐QUINTANA BÉNÉDICTE ALIBERT ANIS M. LIMAMI CESAR ARRESE‐IGOR ESTHER M. GONZÁLEZ 《Plant, cell & environment》2014,37(9):2051-2063
Symbiotic nitrogen fixation is one of the first physiological processes inhibited in legume plants under water‐deficit conditions. Despite the progress made in the last decades, the molecular mechanisms behind this regulation are not fully understood yet. Recent proteomic work carried out in the model legume Medicago truncatula provided the first indications of a possible involvement of nodule methionine (Met) biosynthesis and related pathways in response to water‐deficit conditions. To better understand this involvement, the drought‐induced changes in expression and content of enzymes involved in the biosynthesis of Met, S‐adenosyl‐L‐methionine (SAM) and ethylene in M. truncatula root and nodules were analyzed using targeted approaches. Nitrogen‐fixing plants were subjected to a progressive water deficit and a subsequent recovery period. Besides the physiological characterization of the plants, the content of total sulphur, sulphate and main S‐containing metabolites was measured. Results presented here show that S availability is not a limiting factor in the drought‐induced decline of nitrogen fixation rates in M. truncatula plants and provide evidences for a down‐regulation of the Met and ethylene biosynthesis pathways in roots and nodules in response to water‐deficit conditions. 相似文献
830.
Analysis of the oligomeric state of a protein may provide insights into its physiological functions. Because membrane proteins are considered to be the workhorses of energy generation and polypeptide and nutrient transportation, in this study we characterized the membrane-associated proteome of Streptomyces coelicolor by two-dimensional (2D) blue native/sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE), high-resolution clear native/native PAGE, and native/SDS–PAGE. A total of 77 proteins were identified, and 20 proteins belonging to 15 complexes were characterized. Moreover, the resolution of high-resolution clear native/SDS–PAGE is much higher than that of blue native/SDS–PAGE. OBP (SCO5477) and BldKB (SCO5113) were identified as the main protein spots from the membrane fractions of S. coelicolor M145, suggesting that these two proteins are involved in extracellular peptide transportation. These two transporters exhibited multiple oligomeric states in the native PAGE system, which may suggest their multiple physiological functions in the development of S. coelicolor. 相似文献