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We describe DAGGER, an ab initio gene recognition program which combines the output of high dimensional signal sensors in an intuitive gene model based on directed acyclic graphs. In the first stage, candidate start, donor, acceptor, and stop sites are scored using the SNoW learning architecture. These sites are then used to generate a directed acyclic graph in which each source-sink path represents a possible gene structure. Training sequences are used to optimize an edge weighting function so that the shortest source-sink path maximizes exon-level prediction accuracy. Experimental evaluation of prediction accuracy on two benchmark data sets demonstrates that DAGGERis competitive with ab initio gene finding programs based on Hidden Markov Models. 相似文献
3.
Energy aware DAG scheduling on heterogeneous systems 总被引:1,自引:0,他引:1
We address the problem of scheduling directed a-cyclic task graph (DAG) on a heterogeneous distributed processor system with
the twin objectives of minimizing finish time and energy consumption. Previous scheduling heuristics have assigned DAGs to
processors to minimize overall run-time of the application. But applications on embedded systems, such as high performance
DSP in image processing, multimedia, and wireless security, need schedules which use low energy too. 相似文献
4.
Mutations in the Dof zinc finger genes DAG2 and DAG1 influence with opposite effects the germination of Arabidopsis seeds 总被引:4,自引:0,他引:4
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Gualberti G Papi M Bellucci L Ricci I Bouchez D Camilleri C Costantino P Vittorioso P 《The Plant cell》2002,14(6):1253-1263
We describe the Arabidopsis gene DAG2 encoding a Dof zinc finger protein and show that it is involved in the control of seed germination. An Arabidopsis mutant line with a T-DNA insertion in DAG2 isolated by reverse genetics produces seeds that are substantially more dependent than the wild type on the physical stimuli-light and cold treatment-that promote germination. Mutant dag2 seeds also are less sensitive to the germination-promotive effect of gibberellins, because a 10-fold higher amount of gibberellins is needed to restore germination when endogenous gibberellin biosynthesis is blocked. The seed germination characteristics of the dag2 mutant are opposite to those of dag1, a knockout mutant of another Dof gene (DAG1) that we showed previously to be involved in the control of seed germination, and are similar to those of plants that overexpress DAG1. The promoter of the DAG2 gene is active specifically in the vascular system of the mother plant but not in the embryo, and segregation analysis indicates that the effect of the dag2 mutation is maternal. Both characteristics are in common with DAG1; additionally, the DAG1 and DAG2 proteins share high sequence homology and an identical zinc finger domain. These data suggest, and the germination phenotype of the double mutant is compatible with, a model whereby the zinc finger proteins DAG1 and DAG2 act on a maternal switch that controls seed germination, possibly by regulating the same gene(s). 相似文献
5.
双歧杆菌对人类大肠癌CCL187细胞DAG的调控 总被引:5,自引:2,他引:3
目的 探讨双歧杆菌对人类大肠癌细胞第二信使DAG的调控作用,解释菌群影响机体的分子生物学机制。方法 采用^3H标记肌醇掺入法及HTLC法。结果 双歧杆菌对人类大肠癌细胞中第二信使DAG具有调控作用。 相似文献
6.
Leung HT Tseng-Crank J Kim E Mahapatra C Shino S Zhou Y An L Doerge RW Pak WL 《Neuron》2008,58(6):884-896
In Drosophila, a phospholipase C-mediated signaling cascade links photoexcitation of rhodopsin to the opening of the TRP/TRPL channels. A lipid product of the cascade, diacylglycerol (DAG) and its metabolite(s), polyunsaturated fatty acids (PUFAs), have both been proposed as potential excitatory messengers. A crucial enzyme in the understanding of this process is likely to be DAG lipase (DAGL). However, DAGLs that might fulfill this role have not been previously identified in any organism. In this work, the Drosophila DAGL gene, inaE, has been identified from mutants that are defective in photoreceptor responses to light. The inaE-encoded protein isoforms show high sequence similarity to known mammalian DAG lipases, exhibit DAG lipase activity in vitro, and are highly expressed in photoreceptors. Analyses of norpA inaE double mutants and severe inaE mutants show that normal DAGL activity is required for the generation of physiologically meaningful photoreceptor responses. 相似文献
7.
Yali Li Keli Ma Ping Sun Shuai Liu Huamin Qin Zhengmei Zhu Xiaoqi Wang Qiu Yan 《Molecular and cellular biochemistry》2009,323(1-2):1-7
Glial cell line-derived neurotrophic factor (GDNF) is synthesized as a precursor, proGDNF. However, the molecular mechanisms for the processing and secretion of GDNF are not fully characterized, since the amount of its biosynthesis and secretion in glial cells are below the detection limit of western blotting. We established stably GDNF-overexpressing C6 cells, and this enabled us to monitor its spontaneous secretion, as well as its processed forms in the cells. GDNF secretion was augmented by stimulation with high potassium, while it was inhibited by treatment with either tunicamycin, an inhibitor of protein glycosylation, or brefeldin A, a disturbing factor of ER-Golgi transport. Wild-type GDNF transfected cells secreted three forms of processed GDNF. After deglycosylation, the highest molecular weight of secreted GDNF showed the same mobility on electrophoresis as recombinant human GDNF without a whole pro-domain. Mutations in the pro-domain and two cysteines at the C-terminal of GDNF markedly diminished the secretion of resultant proteins into the culture medium. GDNF proteins having mutations in the putative furin-consensus sequence were secreted partly as unprocessed forms, and forms with lower molecular weights than a mature form were secreted from the C6 cells. Taking these observations together, we conclude that GDNF is likely secreted both with and without processing by furin-like proteases, and that the pro-domain and C-terminal cysteines of GDNF play important roles in its processing and secretion in cultured astrocytes and C6 cells. 相似文献
8.
ABSTRACTThe lid and flap domains control the catalytic activity of lipase through the opening and closing motion. However, this gating mechanism of diacylglycerol (DAG) lipase is poorly understood due to the lack of 3D structures in open conformations. In this study, the opening and closing states of Mrlip1 DAG lipase are revealed by the homology modelling and molecular dynamic simulations. It was found that the active residues (Ser171, His281 and Asp228) in the catalytic pocket of Mrlip1 DAG lipase are covered by the lid domain in the closed conformation, and exposed to the solvent in the open conformation. The role of residues Phe278 and Gln282 in the flap domain, as well as that of Thr101 and Thr107 in the lid domains are also identified in gating mechanism. The site-directed mutagenesis have been carried out to illustrate the putative alterations of enzyme specificity. Our results suggest that the substrate specificity is achieved by these two key residues Phe278 and Gln282, and the irreversible conversion from DAG to TAG (Triacylglycerol) lipase are enabled by the two-point mutations. 相似文献
9.
Advancements in chemical proteomics and mass spectrometry lipidomics are providing new opportunities to understand lipid kinase activity, specificity, and regulation on a global cellular scale. Here, we describe recent developments in chemical biology of lipid kinases with a focus on those members that phosphorylate diacylglycerols. We further discuss future implications of how these mass spectrometry–based approaches can be adapted for studies of additional lipid kinase members with the aim of bridging the gap between protein and lipid kinase–focused investigations. 相似文献
10.
DAG, a gene required for chloroplast differentiation and palisade development in Antirrhinum majus. 总被引:8,自引:1,他引:7
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M Chatterjee S Sparvoli C Edmunds P Garosi K Findlay C Martin 《The EMBO journal》1996,15(16):4194-4207
We have identified a mutation at the DAG locus of Antirrhinum majus which blocks the development of chloroplasts to give white leaves with green revertant sectors. The green areas contain normal chloroplasts whereas the white areas have small plastids that resemble proplastids. The cotyledons of dark-grown dag mutant seedlings have plastids which also resemble proplastids. The palisade cells in the white areas of dag mutant leaves also lack their characteristic columnar shape. The DAG locus was cloned by transposon tagging: DAG encodes a novel protein with a predicted Mr of 26k, which is targeted to the plastids. Cleavage of its predicted transit peptide gives a mature protein of Mr 20k. Screening of databases and analysis of Southern blots gave evidence that DAG belongs to a protein family with homology to several proteins of unknown function from plants. Expression of DAG is required for expression of nuclear genes affecting the chloroplasts, such as CAB and RBCS, and also for expression of the plastidial gene RPOB encoding the plastidial RNA polymerase beta subunit, indicating that it functions very early in chloroplast development. 相似文献
11.
Montell E Turini M Marotta M Roberts M Noé V Ciudad CJ Macé K Gómez-Foix AM 《American journal of physiology. Endocrinology and metabolism》2001,280(2):E229-E237
The increased availability of saturated lipids has been correlated with development of insulin resistance, although the basis for this impairment is not defined. This work examined the interaction of saturated and unsaturated fatty acids (FA) with insulin stimulation of glucose uptake and its relation to the FA incorporation into different lipid pools in cultured human muscle. It is shown that basal or insulin-stimulated 2-deoxyglucose uptake was unaltered in cells preincubated with oleate, whereas basal glucose uptake was increased and insulin response was impaired in palmitate- and stearate-loaded cells. Analysis of the incorporation of FA into different lipid pools showed that palmitate, stearate, and oleate were similarly incorporated into phospholipids (PL) and did not modify the FA profile. In contrast, differences were observed in the total incorporation of FA into triacylglycerides (TAG): unsaturated FA were readily diverted toward TAG, whereas saturated FA could accumulate as diacylglycerol (DAG). Treatment with palmitate increased the activity of membrane-associated protein kinase C, whereas oleate had no effect. Mixture of palmitate with oleate diverted the saturated FA toward TAG and abolished its effect on glucose uptake. In conclusion, our data indicate that saturated FA-promoted changes in basal glucose uptake and insulin response were not correlated to a modification of the FA profile in PL or TAG accumulation. In contrast, these changes were related to saturated FA being accumulated as DAG and activating protein kinase C. Therefore, our results suggest that accumulation of DAG may be a molecular link between an increased availability of saturated FA and the induction of insulin resistance. 相似文献
12.
Liu L Heneghan JF Michael GJ Stanish LF Egertová M Rittenhouse AR 《Journal of cellular physiology》2008,216(1):91-100
Stimulation of postsynaptic M(1) muscarinic receptors (M(1)Rs) increases firing rates of both sympathetic and central neurons that underlie increases in vasomotor tone, heart rate, and cognitive memory functioning. At the cellular level, M(1)R stimulation modulates currents through various voltage-gated ion channels, including KCNQ K+ channels (M-current) and both L- and N-type Ca2+ channels (L- and N-current) by a pertussis toxin-insensitive, slow signaling pathway. Depletion of phosphatidylinositol-4,5-bisphosphate (PIP2) during M(1)R stimulation suffices to inhibit M-current. We found previously that following PIP2 hydrolysis by phospholipase C, activation of phospholipase A2 and liberation of a lipid metabolite, most likely arachidonic acid (AA) are necessary for L- and N-current modulation. Here we examined the involvement of a third lipase, diacylglycerol lipase (DAGL), in the slow pathway. We documented the presence of DAGL in superior cervical ganglion neurons, and then tested the highly selective DAGL inhibitor, RHC-80267, for its capacity to antagonize M(1)R-mediated modulation of whole-cell Ca2+ currents. RHC-80267 significantly reduced L- and N-current inhibition by the muscarinic agonist oxotremorine-M (Oxo-M) but did not affect their inhibition by exogenous AA. Moreover, voltage-dependent inhibition of N-current by Oxo-M remained in the presence of RHC-80267, indicating selective action on the slow pathway. RHC also blocked inhibition of recombinant N-current. In contrast, RHC-80267 had no effect on native M-current inhibition. These data are consistent with a role for DAGL in mediating L- and N-current inhibition. These results extend our previous findings that the signaling pathway mediating L- and N-current inhibition diverges from the pathway initiating M-current inhibition. 相似文献
13.
Disruption of DAG1 in differentiated skeletal muscle reveals a role for dystroglycan in muscle regeneration 总被引:8,自引:0,他引:8
Cohn RD Henry MD Michele DE Barresi R Saito F Moore SA Flanagan JD Skwarchuk MW Robbins ME Mendell JR Williamson RA Campbell KP 《Cell》2002,110(5):639-648
Striated muscle-specific disruption of the dystroglycan (DAG1) gene results in loss of the dystrophin-glycoprotein complex in differentiated muscle and a remarkably mild muscular dystrophy with hypertrophy and without tissue fibrosis. We find that satellite cells, expressing dystroglycan, support continued efficient regeneration of skeletal muscle along with transient expression of dystroglycan in regenerating muscle fibers. We demonstrate a similar phenomenon of reexpression of functional dystroglycan in regenerating muscle fibers in a mild form of human muscular dystrophy caused by disruption of posttranslational dystroglycan processing. Thus, maintenance of regenerative capacity by satellite cells expressing dystroglycan is likely responsible for mild disease progression in mice and possibly humans. Therefore, inadequate repair of skeletal muscle by satellite cells represents an important mechanism affecting the pathogenesis of muscular dystrophy. 相似文献
14.
The DAG, Ala-1, Ly-8 and Ly-6 lymphocyte membrane alloantigens, identified by immune sera raised in different strain combinations, were originally thought to be distinct specificities. With the use of a congenic strain, BALB-DAG, we have now further evidence for antigenic identity based on serological and genetic criteria. 相似文献
15.
Dong Ho Woo Sung Jun Jung Mei Hong Zhu Chul-Kyu Park Yong Ho Kim Seog Bae Oh C Justin Lee 《Molecular pain》2008,4(1):1-15
Voltage-gated sodium channels play important roles in modulating dorsal root ganglion (DRG) neuron hyperexcitability and hyperalgesia after peripheral nerve injury or inflammation. We report that chronic compression of DRG (CCD) produces profound effect on tetrodotoxin-resistant (TTX-R) and tetrodotoxin-sensitive (TTX-S) sodium currents, which are different from that by chronic constriction injury (CCI) of the sciatic nerve in small DRG neurons. Whole cell patch-clamp recordings were obtained in vitro from L4 and/or L5 dissociated, small DRG neurons following in vivo DRG compression or nerve injury. The small DRG neurons were classified into slow and fast subtype neurons based on expression of the slow-inactivating TTX-R and fast-inactivating TTX-S Na+ currents. CCD treatment significantly reduced TTX-R and TTX-S current densities in the slow and fast neurons, but CCI selectively reduced the TTX-R and TTX-S current densities in the slow neurons. Changes in half-maximal potential (V1/2) and curve slope (k) of steady-state inactivation of Na+ currents were different in the slow and fast neurons after CCD and CCI treatment. The window current of TTX-R and TTX-S currents in fast neurons were enlarged by CCD and CCI, while only that of TTX-S currents in slow neurons was increased by CCI. The decay rate of TTX-S and both TTX-R and TTX-S currents in fast neurons were reduced by CCD and CCI, respectively. These findings provide a possible sodium channel mechanism underlying CCD-induced DRG neuron hyperexcitability and hyperalgesia and demonstrate a differential effect in the Na+ currents of small DRG neurons after somata compression and peripheral nerve injury. This study also points to a complexity of hyperexcitability mechanisms contributing to CCD and CCI hyperexcitability in small DRG neurons. 相似文献
16.
《Peptides》2014
Critical illness, including burn injury, results in elevated plasma lactate levels. Dysregulation of PI3K/Akt signaling has been shown to play a predominant role in the inactivation of skeletal muscle PDC and, hence, in hyperlactacidemia in rat models of sepsis and endotoxemia. This observation, and our previous finding that DAG can reverse burn-induced skeletal muscle proteolysis through the activation of PI3K/Akt pathway, led us to hypothesize that DAG may also attenuate hyperlactacidemia in burn injury. Our investigations revealed that burn injury significantly elevated both skeletal muscle lactate production and plasma lactate levels. Moreover, this was accompanied in skeletal muscle by a 5–7 fold increase in mRNA expression of pyruvate dehydrogenase kinases (PDK) 2 and 4, and a ∼30% reduction in PDC activity. DAG treatment of burn rats completely normalized not only the mRNA expression of the PDKs and PDC activity, but also hyperlactacidemia within 24 h of burn injury. DAG also normalized epinephrine-induced lactate production by isolated skeletal muscles from normal rats. Moreover, DAG also improved survival in a lethal rat model of burn trauma. These findings with DAG may have clinical implications because chances of survival for critically ill patients are greatly improved if plasma lactate levels are normalized within 24 h of injury. 相似文献
17.
Background
Real-time quantitative PCR (qPCR) is still the gold-standard technique for gene-expression quantification. Recent technological advances of this method allow for the high-throughput gene-expression analysis, without the limitations of sample space and reagent used. However, non-commercial and user-friendly software for the management and analysis of these data is not available.Results
The recently developed commercial microarrays allow for the drawing of standard curves of multiple assays using the same n-fold diluted samples. Data Analysis Gene (DAG) Expression software has been developed to perform high-throughput gene-expression data analysis using standard curves for relative quantification and one or multiple reference genes for sample normalization. We discuss the application of DAG Expression in the analysis of data from an experiment performed with Fluidigm technology, in which 48 genes and 115 samples were measured. Furthermore, the quality of our analysis was tested and compared with other available methods.Conclusions
DAG Expression is a freely available software that permits the automated analysis and visualization of high-throughput qPCR. A detailed manual and a demo-experiment are provided within the DAG Expression software at http://www.dagexpression.com/dage.zip. 相似文献18.
Lammers L Naujoks C Berr K Depprich R Kübler N Meyer U Langenbach F Lüttenberg B Kögler G Wiesmann HP Handschel J 《Stem cell research》2012,8(2):193-205
It remains unexplored in what way osteogenic stimulation with dexamethasone, ascorbic acid and β-glycerol phosphate (DAG) influences the process of mineralization, the composition and structure of the assembled mineral. Therefore, we analyzed and characterized biomineralization in DAG-stimulated and unstimulated 3D human unrestricted somatic stem cell (USSC) cultures. Microspheres were analyzed by histological staining, scanning electron microscopy (SEM), semi-quantitative energy-dispersive X-ray spectroscopy (EDX), quantitative wavelength-dispersive X-ray spectroscopy (WDX), transmission electron microscopy (TEM), selected area electron diffraction (SAED) and Raman spectroscopy.Mineral material was detected by SEM and histological staining in both groups, and showed structural differences. DAG influenced the differentiation of USSCs and the formation, structure and composition of the assembled mineral. SEM showed that cells of the + DAG spheres exhibited morphological signs of osteoblast-like cells. EDX and WDX confirmed a Ca-P mineral in both groups. Overall, the mineral material found showed structural similarities to the mineral substance of bony material. 相似文献
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20.
Deleting the DAG kinase Dgk1 augments yeast vacuole fusion through increased Ypt7 activity and altered membrane fluidity
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Gregory E. Miner Matthew L. Starr Logan R. Hurst Rutilio A. Fratti 《Traffic (Copenhagen, Denmark)》2017,18(5):315-329
Diacylglycerol (DAG) is a fusogenic lipid that can be produced through phospholipase C activity on phosphatidylinositol 4,5‐bisphosphate [PI(4,5)P2 ], or through phosphatidic acid (PA) phosphatase activity. The fusion of Saccharomyces cerevisiae vacuoles requires DAG, PA and PI(4,5)P2 , and the production of these lipids is thought to provide temporally specific stoichiometries that are critical for each stage of fusion. Furthermore, DAG and PA can be interconverted by the DAG kinase Dgk1 and the PA phosphatase Pah1. Previously we found that pah1 Δ vacuoles were fragmented, blocked in SNARE priming and showed arrested endosomal maturation. In other pathways the effects of deleting PAH1 can be compensated for by additionally deleting DGK1 ; however, deleting both genes did not rescue the pah1 Δ vacuolar defects. Deleting DGK1 alone caused a marked increase in vacuole fusion that was attributed to elevated DAG levels. This was accompanied by a gain in resistance to the inhibitory effects of PA as well as inhibitors of Ypt7 activity. Together these data show that Dgk1 function can act as a negative regulator of vacuole fusion through the production of PA at the cost of depleting DAG and reducing Ypt7 activity. 相似文献