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Despite sharing many common features, adenine-binding and guanine-binding sites in proteins often show a clear preference for the cognate over the non-cognate ligand. We have analyzed electrostatic potential (ESP) patterns at adenine and guanine-binding sites of a large number of non-redundant proteins where each binding site was first annotated as adenine/guanine-specific or non-specific from a survey of primary literature. We show that more than 90% of ESP variance at the binding sites is accounted for by only two principal component ESP vectors, each aligned to molecular dipoles of adenine and guanine. Projected on these principal component vectors, the adenine/guanine-specific and non-specific binding sites, including adenine-containing dinucleotides, show non-overlapping distributions. Adenine or guanine specificities of the binding sites also show high correlation with the corresponding electrostatic replacement (cognate by non-cognate ligand) energies. High correlation coefficients (0.94 for 35 adenine-binding sites and 1.0 for 20 guanine-binding sites) were obtained when adenine/guanine specificities were predicted using the replacement energies. Our results demonstrate that ligand-free protein ESP is an excellent indicator for discrimination between adenine and guanine-specific binding sites and that ESP of ligand-free protein can be used as a tool to annotate known and putative purine-binding sites in proteins as adenine or guanine-specific. 相似文献
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Davis GC Kong Y Paige M Li Z Merrick EC Hansen T Suy S Wang K Dakshanamurthy S Cordova A McManus OB Williams BS Chruszcz M Minor W Patel MK Brown ML 《Bioorganic & medicinal chemistry》2012,20(6):2180-2188
Voltage-gated sodium channels are known to be expressed in neurons and other excitable cells. Recently, voltage-gated sodium channels have been found to be expressed in human prostate cancer cells. α-Hydroxy-α-phenylamides are a new class of small molecules that have demonstrated potent inhibition of voltage-gated sodium channels. The hydroxyamide motif, an isostere of a hydantoin ring, provides an active scaffold from which several potent racemic sodium channel blockers have been derived. With little known about chiral preferences, the development of chiral syntheses to obtain each pure enantiomer for evaluation as sodium channel blockers is important. Using Seebach and Frater's chiral template, cyclocondensation of (R)-3-chloromandelic acid with pivaldehyde furnished both the cis- and trans-2,5-disubsituted dioxolanones. Using this chiral template, we synthesized both enantiomers of 2-(3-chlorophenyl)-2-hydroxynonanamide, and evaluated their ability to functionally inhibit hNa(v) isoforms, human prostate cancer cells and xenograft. Enantiomers of lead demonstrated significant ability to reduce prostate cancer in vivo. 相似文献
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Mohammed Inayathullah K. S. Satheeshkumar Andrey V. Malkovskiy Antoine L. Carre Senthilkumar Sivanesan Jasper O. Hardesty Jayakumar Rajadas 《PloS one》2013,8(12)
The secondary structures of amyloidogenic proteins are largely influenced by various intra and extra cellular microenvironments and metal ions that govern cytotoxicity. The secondary structure of a prion fragment, PrP(111-126), was determined using circular dichroism (CD) spectroscopy in various microenvironments. The conformational preferences of the prion peptide fragment were examined by changing solvent conditions and pH, and by introducing external stress (sonication). These physical and chemical environments simulate various cellular components at the water-membrane interface, namely differing aqueous environments and metal chelating ions. The results show that PrP(111-126) adopts different conformations in assembled and non-assembled forms. Aging studies on the PrP(111-126) peptide fragment in aqueous buffer demonstrated a structural transition from random coil to a stable β-sheet structure. A similar, but significantly accelerated structural transition was observed upon sonication in aqueous environment. With increasing TFE concentrations, the helical content of PrP(111-126) increased persistently during the structural transition process from random coil. In aqueous SDS solution, PrP(111-126) exhibited β-sheet conformation with greater α-helical content. No significant conformational changes were observed under various pH conditions. Addition of Cu2+ ions inhibited the structural transition and fibril formation of the peptide in a cell free in vitro system. The fact that Cu2+ supplementation attenuates the fibrillar assemblies and cytotoxicity of PrP(111-126) was witnessed through structural morphology studies using AFM as well as cytotoxicity using MTT measurements. We observed negligible effects during both physical and chemical stimulation on conformation of the prion fragment in the presence of Cu2+ ions. The toxicity of PrP(111-126) to cultured astrocytes was reduced following the addition of Cu2+ ions, owing to binding affinity of copper towards histidine moiety present in the peptide. 相似文献
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Oh AS Lahusen JT Chien CD Fereshteh MP Zhang X Dakshanamurthy S Xu J Kagan BL Wellstein A Riegel AT 《Molecular and cellular biology》2008,28(21):6580-6593
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Azo dyes are known to be a very important and widely used class of toxic and carcinogenic compounds. Although lot of research
has been carried out for their removal from industrial effluents, very little attention is given to changes in their toxicity
and mutagenicity during the treatment processes. Present investigation describes isolation of a Bacillus velezensis culture capable of degrading azo dye Direct Red 28 (DR28). Azoreductase enzyme was isolated from it, and its molecular weight
was found to be 60 kDa. The enzyme required NADH as cofactor and was oxygen-insensitive. Toxicity and mutagenicity of the
dye during biodegradation was monitored by using a battery of carefully selected in vitro tests. The culture was found to
degrade DR28 to benzidine and 4-aminobiphenyl, both of which are potent mutagens. However, on longer incubation, both the
compounds were degraded further, resulting in reduction in toxicity and mutagenicity of the dye. Thus, the culture seems to
be a suitable candidate for further study for both decolourization and detoxification of azo dyes, resulting in their safe
disposal.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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AA (amyloid protein A) amyloidosis in mice is markedly accelerated when the animals are given, in addition to an inflammatory stimulus, an intravenous injection of protein extracted from AA-laden mouse tissue. Previous findings affirm that AA fibrils can enhance the in vivo amyloidogenic process by a nucleation seeding mechanism. Accumulating evidence suggests that globular aggregates rather than fibrils are the toxic entities responsible for cell death. In the present study we report on structural and morphological features of AEF (amyloid-enhancing factor), a compound extracted and partially purified from amyloid-laden spleen. Surprisingly, the chief amyloidogenic material identified in the active AEF was diffusible globular oligomers. This partially purified active extract triggered amyloid deposition in vital organs when injected intravenously into mice. This implies that such a phenomenon could have been inflicted through the nucleation seeding potential of toxic oligomers in association with altered cytokine induction. In the present study we report an apparent relationship between altered cytokine expression and AA accumulation in systemically inflamed tissues. The prevalence of serum AA monomers and proteolytic oligomers in spleen AEF is consistent to suggest that extrahepatic serum AA processing might lead to local accumulation of amyloidogenic proteins at the serum AA production site. 相似文献
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Raj Kiran Bala Rajkumar Murugesan Sivanesan Subramanian Anuradha Dhanasekaran 《Journal of plant biochemistry and biotechnology.》2017,26(3):321-329
Auxins are a group of phytohormones that regulate several aspects of plant growth and development. Indole-3-acetic acid (IAA) is the predominant form of auxin in plants and several IAA biosynthetic pathways have been previously proposed but remain genetically uncharacterized. One of the proposed pathways is the indole-3-pyruvic acid (IPyA) pathway, which is inferred to regulate key developmental processes such as apical hook formation and shade avoidance. Recent molecular evidence suggests the existence of the pathway in higher plants but remains unverified due to the elusive nature of IPyA in vitro. Extending on these recent advances, this research was aimed at investigating aspects of IPyA-dependent auxin biology in Pisum sativum (pea) using reverse genetics, expression profiling, and analytical techniques. As a result the genes PsTAR2, PsTAR 5g Mt 80, and PsTAR 5g Mt 90, which are inferred to encode key enzymes in the IPyA pathway, were cloned. On expression analysis PsTAR2 was found to be slightly heightened in response to IPyA-inducing conditions (shade) while IAA levels remained unaltered contrary to previous reports. Moreover, the inferred homologs PsTAR 5g Mt 80 and PsTAR 5g Mt 90 appeared down-regulated in the same conditions suggesting functional divergence in the gene family. Thus, PsTAR2 was thought to be solely responsible for regulating IPyA-dependent auxin synthesis. Consequently, using a reverse genetic approach, called TILLING, the PsTAR2 gene was mutated in order to study the down-stream effects of IPyA deficiency. The procedure is currently underway and in the process of isolating two novel pstar2 (IPyA) mutant lines consisting of a missense mutation (pstar2 4280) and a highly desired knockout mutation (pstar2 918). On completion the novel mutants are anticipated to be indispensable to future IPyA-auxin investigations in higher plants. In light of the unstable nature of IPyA, a protocol has been formulated using UPLC for fractioning followed by MS/MS analysis. This technique appears to be very promising as a robust IPyA detection protocol in plant extracts. 相似文献