共查询到20条相似文献,搜索用时 9 毫秒
1.
Ruhar Singh Naveen Kumar Meena Trishala Das Ravi Datta Sharma 《Journal of biomolecular structure & dynamics》2020,38(17):5027-5036
AbstractThe funnel shaped energy landscape model of the protein folding suggests that progression of folding proceeds through multiple pathways, having the multiple intermediates which leads to multidimensional free-energy surface. Herein, we applied all-atom MD simulation to conduct a comparative study on the structure of β-lactoglobulin (β-LgA) in aqueous mixture of 8?M urea and 8?M dimethyl sulfoxide (DMSO), at different temperatures. The cumulative results of multiple simulations suggest a common unfolding pathway of β-LgA, occurred through the stable and meta-stable intermediates (I), in both urea and DMSO. However, the free-energy landscape (FEL) analyses show that the structural transitions of I-states are energetically different. In urea, FEL shows distinct ensemble of intermediates, I1 and I2, separated by the energy barrier of ~3.0?kcal mol?1. Similarly, we find the population of two distinct I1 and I2 states in DMSO, however, the I1 appeared transiently around ~30–35?ns and is short-lived. But, the I2 ensemble is observed structurally compact and long-lived (~50–150?ns) as compared to unfolding in urea. Furthermore, the I1 and I2 are separated through a high energy barrier of ~6.0?kcal mol?1. Thus, our results provide the structural insights of intermediates which essentially bear the signature of a different unfolding pathway of β-LgA in urea and DMSO. Abbreviations β-LgA β-lactoglobulin DMSO dimethyl sulfoxide FEL free-energy landscape GdmCl guanidinium chloride I intermediate state MG molten globule state PME particle mesh Ewald Q fraction of native contacts RMSD root mean square deviation RMSF root mean square fluctuation Rg radius of gyration SASA solvent Accessible Surface Area scSASA the side chain SASA Trp tryptophan Communicated by Ramaswamy H. Sarma 相似文献
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Szu Hua Sharon Lin Xiaoxiao WangSufang Zhang Zhongtao ZhangErnest Y.C. Lee Marietta Y.W.T. Lee 《DNA Repair》2013,12(11):922-935
Lagging strand DNA replication requires the concerted actions of DNA polymerase δ, Fen1 and DNA ligase I for the removal of the RNA/DNA primers before ligation of Okazaki fragments. To better understand this process in human cells, we have reconstituted Okazaki fragment processing by the short flap pathway in vitro with purified human proteins and oligonucleotide substrates. We systematically characterized the key events in Okazaki fragment processing: the strand displacement, Pol δ/Fen1 combined reactions for removal of the RNA/DNA primer, and the complete reaction with DNA ligase I. Two forms of human DNA polymerase δ were studied: Pol δ4 and Pol δ3, which represent the heterotetramer and the heterotrimer lacking the p12 subunit, respectively. Pol δ3 exhibits very limited strand displacement activity in contrast to Pol δ4, and stalls on encounter with a 5′-blocking oligonucleotide. Pol δ4 and Pol δ3 exhibit different characteristics in the Pol δ/Fen1 reactions. While Pol δ3 produces predominantly 1 and 2 nt cleavage products irrespective of Fen1 concentrations, Pol δ4 produces cleavage fragments of 1–10 nts at low Fen1 concentrations. Pol δ3 and Pol δ4 exhibit comparable formation of ligated products in the complete system. While both are capable of Okazaki fragment processing in vitro, Pol δ3 exhibits ideal characteristics for a role in Okazaki fragment processing. Pol δ3 readily idles and in combination with Fen1 produces primarily 1 nt cleavage products, so that nick translation predominates in the removal of the blocking strand, avoiding the production of longer flaps that require additional processing. These studies represent the first analysis of the two forms of human Pol δ in Okazaki fragment processing. The findings provide evidence for the novel concept that Pol δ3 has a role in lagging strand synthesis, and that both forms of Pol δ may participate in DNA replication in higher eukaryotic cells. 相似文献
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Usha Singh Ajit Kumar Rajesh Sinha Sushma Manral Shvetambri Arora Sant Ram Rakesh K. Mishra Prachi Gupta Surendra K. Bansal Ashok K. Prasad Shyam Biswal Virinder S. Parmar Hanumantharao G. Raj 《Chemico-biological interactions》2010,185(3):263-270
Polyphenols, coumarin (1,2-benzopyrone) and chromone (1,4-benzopyrone), are naturally occurring constituent of variety of plant species. They have attracted immense interest because of their diverse pharmacological activities. Not much was known about biological activities of acetyl derivative (polyphenolic acetates) of parent polyphenols. In previous investigations, we have conclusively established calreticulin transacetylase catalyzed activation of endothelial nitric oxide synthase (eNOS) by polyphenolic acetates. In the present work, calreticulin transacetylase of human peripheral blood mononuclear cells was characterized with respect to specificity for various polyphenolic acetates and its role in the activation of TNF-α induced nitric oxide synthase (iNOS). Peripheral blood mononuclear cells incubated with a model polyphenolic acetate, 7,8-diacetoxy-4-methylcoumarin (DAMC), along with l-arginine caused activation of NOS. The incubation of peripheral blood mononuclear cells with TNF-α and DAMC resulted in increased production of NO as compared to TNF-α alone. This increased NO production was attenuated by l-Nω-nitro-l-arginine methyl ester (l-NAME), a well known non-specific inhibitor of NOS, and 1400W (N-[3-(aminomethyl) benzyl] acetamidine), a specific inhibitor of human iNOS. These results substantiate the CRTAase catalyzed activation of iNOS. Further, expression of NOS isoforms by semi-quantitative PCR and real-time RT-PCR confirms the preponderance of iNOS in TNF-α treated peripheral blood mononuclear cells over the untreated one. It was also observed that polyphenolic acetates inhibit TNF-α mediated release of IL-6 from peripheral blood mononuclear cells. 相似文献
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Villard PH Barlesi F Armand M Dao TM Pascussi JM Fouchier F Champion S Dufour C Giniès C Khalil A Amiot MJ Barra Y Seree E 《PloS one》2011,6(1):e14629
Background
We previously showed that blood serum induced cytochrome P450 1A1 (CYP1A1) monooxygenase expression in vitro.Objective
Our purpose was (i) to identify the molecular mechanism involved and (ii) to characterize the inducer compound(s) in serum involved at least in part.Methods
Serum was fractionated on hydrophobic columns. PPARα involvement was demonstrated by gene reporter assays, DNA mutagenesis and EMSA. Gene expression was evaluated by qRT-PCR. Serum samples were analyzed using HS-SPME-GC-MS.Results
The inductive effect of serum did not depend on the AhR pathway and was enhanced by cotransfection of PPARα cDNA. Mutations in the PPAR response elements of the CYP1A1 gene promoter suppressed this effect. One of the PPRE sites appeared highly specific for human PPARα, an unreported PPRE property. A link was found between CYP1A1 inducibility and serum hydrophobic compounds. Characterization of sera showed that hexanal, a metabolite produced by peroxidation of linoleic acid, was involved in CYP1A1 induction by serum, possibly along with other serum entities.Conclusion
We demonstrate that serum induces CYP1A1 via the PPARα pathway and that hexanal is one of the serum inducers. The two PPRE sites within the CYP1A1 promoter are functional and one of them is specific for PPARα. 相似文献6.
Receptor protein tyrosine phosphatase α (RPTPα)-mediated Src activation is required for survival of tested human colon and oestrogen receptor-negative breast cancer cell lines. To explore whether mutated RPTPα participates in human carcinogenesis, we sequenced RPTPα cDNAs from five types of human tumours and found splice mutants in ~30% of colon, breast, and liver tumours. RPTPα245, a mutant expressed in all three tumour types, was studied further. Although it lacks any catalytic domain, RPTPα245 expression in the tumours correlated with Src tyrosine dephosphorylation, and its expression in rodent fibroblasts activated Src by a novel mechanism. This involved RPTPα245 binding to endogenous RPTPα (eRPTPα), which decreased eRPTPα-Grb2 binding and increased eRPTPα dephosphorylation of Src without increasing non-specific eRPTPα activity. RPTPα245-eRPTPα binding was blocked by Pro210 → Leu/Pro211 → Leu mutation, consistent with the involvement of the structural 'wedge' that contributes to eRPTPα homodimerization. RPTPα245-induced fibroblast transformation was blocked by either Src or eRPTPα RNAi, indicating that this required the dephosphorylation of Src by eRPTPα. The transformed cells were tumourigenic in nude mice, suggesting that RPTPα245-induced activation of Src in the human tumours may have contributed to carcinogenesis. 相似文献
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《Neurochemistry international》1988,12(4):453-459
Adenylate cyclase in synaptic plasma membranes from rat brain is activated by α-chymotrypsin or trypsin. These proteases also activate adenylate cyclase reconstituted from the catalytic subunit of adenylate cyclase and the partially purified fraction of the GTP-binding proteins containing both the stimulatory and inhibitory GTP-binding proteins. Properties of the activation of reconstituted adenylate cyclase by the proteases are as follows. (1) The proteases do not directly activate the catalytic subunit. However, the pre-treatment of the partially purified GTP-binding proteins with α-chymotrypsin (100 μg/ml) increases the subsequently reconstituted cyclase activity at least 3-fold. Trypsin (10–30 μg/ml) much more weakly enhances the cyclase activity. (2) α-Chymotrypsin and trypsin synergistically activate the cyclase. (3) Trypsin but not α-chymotrypsin no longer activates the cyclase when the purified stimulatory GTP-binding protein (Gs) replaces the partially purified GTP-binding proteins. (4) The stimulatory effects of α-chymotrypsin and trypsin on the cyclase activity are little or slight unless 5′-guanylylimidodiphosphate (Gpp(NH)p) is present in the reconstitution. (5) The purified βγ-subunits of the GTP-binding proteins markedly inhibit adenylate cyclase. This inhibition is nearly completely attenuated by treating the βα-subunits with α-chymotrypsin (> 10 μg/ml). (6) Trypsin (1–10 μg/ml) inactivates the GTPase of the α-subunit of the inhibitory GTP-binding protein (Gi). This inactivation of the GTPase seems to correlate with the activation of the reconstituted adenylate cyclase by trypsin.We conclude that two distinct protein components are involved in the activation of adenylate cyclase by α-chymotrypsin and trypsin. One component sensitive to α-chymotrypsin is probably the βγ-subunits of the GTP-binding proteins. The other component sensitive to trypsin may be the α-subunit of Gi. 相似文献
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Thomas E. Creighton 《Journal of molecular biology》1977,113(2):313-328
Concentrated solutions of urea and of guanidine · HCl produced a random spectrum of single-disulphide forms of the polypeptide chain of the pancreatic trypsin inhibitor. Guanidine · HCl also unfolded completely, with accompanying interchange of disulphide bonds, the two-disulphide form of this protein in the native-like conformation; urea produced an equilibrium mixture in which one-quarter of the molecules had the native-like conformation and disulphide bonds. The unfolded forms of the protein in the denaturants were very flexible polypeptide chains. The observations suggest that urea and guanidine · HCl are denaturants because they produce essentially equally favourable solvation of all portions of a polypeptide.The energetics of the conformational transitions involved in folding and unfolding of the inhibitor were determined in urea and compared with those observed in its absence. The denaturant lowers the stability of the native, folded inhibitor relative to that of the reduced, unfolded state by 6.5 kilocalories per mole; the greatest part of this apparent free-energy difference was expressed at the two-disulphide stage of folding. The results are consistent with other indications that most of the favourable interactions stabilizing the native conformation of this protein are not encountered until the final stage of folding, when all may occur simultaneously.The unfolded one- and two-disulphide species produced in guanidine · HCl were trapped, and their rearrangement to the normal intermediates followed after removal of the denaturant. The random single-disulphide species, with one exception, reverted very rapidly to the non-random spectrum of intermediates normally observed during folding; this confirms that these species are normally rapidly interconverted and that normal refolding of the reduced protein is not dependent kinetically upon residual stable conformation in the reduced protein. The unfolded two-disulphide species refolded to the native-like conformation more slowly, but appeared to pass through the same intermediates normally observed during refolding from the fully reduced state. 相似文献
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Jianyun Huang Yutong Sun J. Jillian Zhang Xin-Yun Huang 《The Journal of biological chemistry》2015,290(1):272-283
G protein-coupled receptors (GPCRs) relay extracellular signals mainly to heterotrimeric G-proteins (Gαβγ) and they are the most successful drug targets. The mechanisms of G-protein activation by GPCRs are not well understood. Previous studies have revealed a signal relay route from a GPCR via the C-terminal α5-helix of Gα to the guanine nucleotide-binding pocket. Recent structural and biophysical studies uncover a role for the opening or rotating of the α-helical domain of Gα during the activation of Gα by a GPCR. Here we show that β-adrenergic receptors activate eight Gαs mutant proteins (from a screen of 66 Gαs mutants) that are unable to bind Gβγ subunits in cells. Five of these eight mutants are in the αF/Linker 2/β2 hinge region (extended Linker 2) that connects the Ras-like GTPase domain and the α-helical domain of Gαs. This extended Linker 2 is the target site of a natural product inhibitor of Gq. Our data show that the extended Linker 2 is critical for Gα activation by GPCRs. We propose that a GPCR via its intracellular loop 2 directly interacts with the β2/β3 loop of Gα to communicate to Linker 2, resulting in the opening and closing of the α-helical domain and the release of GDP during G-protein activation. 相似文献
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Yeo-Jin Seo Hee-Chul Ahn Eun-Hae Lee Jongchul Bang Hee-Eun Kim Kyungmin Kim Joon-Hwa Lee 《FEBS letters》2010,584(20):4344-4350
The Zα domain of human ADAR1 (ZαADAR1) preferentially binds Z-DNA rather than B-DNA with high binding affinity. ZαADAR1 binds to the Z-conformation of both non-CG-repeat DNA duplexes and a d(CGCGCG)2 duplex similarly. We performed NMR experiments on complexes between the ZαADAR1 and non-CG-repeat DNA duplexes, d(CACGTG)2 or d(CGTACG)2, with a variety of protein-DNA molar ratios. Comparison of these results with those from the analysis of d(CGCGCG)2 in the previous study suggests that ZαADAR1 exhibits the sequence preference of d(CGCGCG)2 ? d(CACGTG)2 > d(CGTACG)2 through multiple sequence discrimination steps during the B-Z transition. 相似文献
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We have been investigating differential gene expression associated with apoptosis in AK-5 cells (a spontaneously regressing
rat histiocytoma) and have observed catalytic subunits beta 7 and alpha 5 of the 26S proteasome and ubiquitin to be upregulated
during apoptosis induced by a variety of agents. The observed elevation in gene expression was parallel to a comparable increase
in the cytosolic protein expression of the proteasome and ubiquitin and a markedly amplified increase in the proteasome activity.
Inhibition of the increase in gene expression resulted in the inhibition of the rise in the proteasome activity subsequently
leading to an inhibition of apoptosis. Similarly, pretreatment with proteasome inhibitors, MG132 and lactacystin, resulted
in a significant inhibition of apoptosis pointing to the requirement of a highly active protein degradation machinery during
apoptosis. The apoptosis inhibitory effect of the proteasome inhibitors involved an inhibition of the activation of various
initiator and effector caspases but was independent of any changes in the mitochondrial membrane depolarization and cytochrome
c release associated with apoptosis. Inhibition of proteasome activity or its upstream PI3 kinase activity inhibited NFκB
translocation thereby suppressing apoptosis, which highlights the requirement of NFκB activation for completion of apoptosis
in AK-5 cells. Hence, the apoptosis associated induction of the Ub-proteasome pathway components and the proteasome activity
suggests that the proteasome, in its capacity as an efficient protein degradation complex, plays an important role in the
successful execution of apoptosis. 相似文献
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Salvador Naranjo-Suarez Bradley A. Carlson Ryuta Tobe Min-Hyuk Yoo Petra A. Tsuji Vadim N. Gladyshev Dolph L. Hatfield 《Molecules and cells》2013,35(2):151-157
Berberine (BBR) is one of the major alkaloids and has been reported to have a variety of pharmacologic effects, including inhibition of cell cycle progression. Here, we investigated the mechanisms of BBR protection of neuronal cells from cell death induced by the Parkinson’s disease-related neurotoxin 6-hydroxydopamine (6-OHDA). Pretreatment of SH-SY5Y cells with BBR significantly reduced 6-OHDAinduced generation of reactive oxygen species (ROS), caspase-3 activation, and subsequent cell death. BBR also upregulated heme oxygenase-1 (HO-1) expression, which conferred protection against 6-OHDA-induced dopaminergic neuron injury and besides, effect of BBR on HO-1 was reversed by siRNA-Nrf2. Furthermore, BBR induced PI3K/Akt and p38 activation, which are involved in the induction of Nrf2 expression and neuroprotection. These results suggest that BBR may be useful as a therapeutic agent for the treatment of dopaminergic neuronal diseases. 相似文献
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Colleen R. McNamara Ruchita Ahuja Awo D. Osafo-Addo Douglas Barrows Arminja Kettenbach Igor Skidan Xin Teng Gregory D. Cuny Scott Gerber Alexei Degterev 《PloS one》2013,8(3)
Necroptosis is a regulated form of necrotic cell death that has been implicated in the pathogenesis of various diseases including intestinal inflammation and systemic inflammatory response syndrome (SIRS). In this work, we investigated the signaling mechanisms controlled by the necroptosis mediator receptor interacting protein-1 (RIP1) kinase. We show that Akt kinase activity is critical for necroptosis in L929 cells and plays a key role in TNFα production. During necroptosis, Akt is activated in a RIP1 dependent fashion through its phosphorylation on Thr308. In L929 cells, this activation requires independent signaling inputs from both growth factors and RIP1. Akt controls necroptosis through downstream targeting of mammalian Target of Rapamycin complex 1 (mTORC1). Akt activity, mediated in part through mTORC1, links RIP1 to JNK activation and autocrine production of TNFα. In other cell types, such as mouse lung fibroblasts and macrophages, Akt exhibited control over necroptosis-associated TNFα production without contributing to cell death. Overall, our results provide new insights into the mechanism of necroptosis and the role of Akt kinase in both cell death and inflammatory regulation. 相似文献
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Sarkar S Song Y Sarkar S Kipen HM Laumbach RJ Zhang J Strickland PA Gardner CR Schwander S 《Journal of immunology (Baltimore, Md. : 1950)》2012,188(6):2778-2793
Epidemiological studies suggest that chronic exposure to air pollution increases susceptibility to respiratory infections, including tuberculosis in humans. A possible link between particulate air pollutant exposure and antimycobacterial immunity has not been explored in human primary immune cells. We hypothesized that exposure to diesel exhaust particles (DEP), a major component of urban fine particulate matter, suppresses antimycobacterial human immune effector cell functions by modulating TLR-signaling pathways and NF-κB activation. We show that DEP and H37Ra, an avirulent laboratory strain of Mycobacterium tuberculosis, were both taken up by the same peripheral human blood monocytes. To examine the effects of DEP on M. tuberculosis-induced production of cytokines, PBMC were stimulated with DEP and M. tuberculosis or purified protein derivative. The production of M. tuberculosis and purified protein derivative-induced IFN-γ, TNF-α, IL-1β, and IL-6 was reduced in a DEP dose-dependent manner. In contrast, the production of anti-inflammatory IL-10 remained unchanged. Furthermore, DEP stimulation prior to M. tuberculosis infection altered the expression of TLR3, -4, -7, and -10 mRNAs and of a subset of M. tuberculosis-induced host genes including inhibition of expression of many NF-κB (e.g., CSF3, IFNG, IFNA, IFNB, IL1A, IL6, and NFKBIA) and IFN regulatory factor (e.g., IFNG, IFNA1, IFNB1, and CXCL10) pathway target genes. We propose that DEP downregulate M. tuberculosis-induced host gene expression via MyD88-dependent (IL6, IL1A, and PTGS2) as well as MyD88-independent (IFNA, IFNB) pathways. Prestimulation of PBMC with DEP suppressed the expression of proinflammatory mediators upon M. tuberculosis infection, inducing a hyporesponsive cellular state. Therefore, DEP alters crucial components of antimycobacterial host immune responses, providing a possible mechanism by which air pollutants alter antimicrobial immunity. 相似文献