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21.
Banerjee S Mirsamadi N Anantharaman L Sivaram MV Gupta RB Choudhury D Roy RP 《The protein journal》2007,26(7):445-455
The identity of intermolecular contact residues in sickle hemoglobin (HbS) fiber is largely known. However, our knowledge
about combinatorial effects of two or more contact sites or the mechanistic basis of such effects is rather limited. Lys16,
His20, and Glu23 of the α-chain occur in intra-double strand axial contacts in the sickle hemoglobin (HbS) fiber. Here we
have constructed two novel double mutants, HbS (K16Q/E23Q) and (H20Q/E23Q), with a view to delineate cumulative impact of
interactions emanating from the above contact sites. Far-UV and visible region CD spectra of the double mutants were similar
to the native HbS indicating the presence of native-like secondary and tertiary structure in the mutants. The quaternary structures
in both the mutants were also preserved as judged by the derivative UV spectra of liganded (oxy) and unliganded (deoxy) forms
of the double mutants. However, the double mutants displayed interesting polymerization behavior. The polymerization behaviour
of the double mutants was found to be non-additive of the individual single mutants. While HbS (H20Q/E23Q) showed inhibitory
effect similar to that of HbS (E23Q), the intrinsic inhibitory propensity of the associated single mutants was totally quelled
in HbS (K16Q/E23Q) double mutant. Molecular dynamics (MD) simulations studies of the isolated α-chains as well as a module
of the fiber containing the double and associated single mutants suggested that these contact sites at the axial interface
of the fiber impact HbS polymerization through a coupled interaction network. The overall results demonstrate a subtle role
of dynamics and electrostatics in the polymer formation and provide insights about interaction-linkage in HbS fiber assembly. 相似文献
22.
Alterations in brain metabolism induced by chronic morphine treatment: NMR studies in rat CNS 总被引:2,自引:0,他引:2
Sharma SK Yashpal K Fundytus ME Sauriol F Henry JL Coderre TJ 《Neurochemical research》2003,28(9):1369-1373
High-resolution (500 MHz) multiresonance/multinuclear proton (1H) nuclear magnetic resonance (NMR) spectroscopy was used to detect metabolic changes and cellular injury in the rat brain stem and spinal cord following chronic morphine treatment. Compensatory changes were observed in glycine, glutamate, and inositols in the brain stem, but not the spinal cord, of chronic morphine-treated rats. In spinal cord, increases were detected in lactate and N-acetyl-aspartate (NAA), suggesting that there is anaerobic glycolysis, plasma membrane damage, and altered pH preferentially in the spinal cord of chronic morphine-treated rats. 相似文献
23.
Diabetic patients have elevated levels of glucose in their blood and other body fluids. This project studied the effect of high-glucose concentrations (HG) on the protein oxidation in cultured lens cells and in crystalline protein solution. In addition, we also examined the effect of HG on the oxidation and turbidity (aggregation) of albumin protein solution. This study also examined whether vitamin B6 [pyridoxine (P), pyridoxamine (PM)] or n-acetylcysteine (NAC) is capable of preventing protein oxidation similar to that seen in cataracts. For cell culture studies, rabbit lens cells were cultured in control or HG medium at 37°C for 2 d. For studies with protein solution, a buffered solution of serum albumin or crystalline protein was incubated with normal glucose (5 mM) or HG (50–100 mM) in a water bath at 37°C for 4 d. All treatments were carried out with and without the addition of P, PM, or NAC. We found significantly higher levels of carbonyl protein (an index of protein oxidation) in HG-treated compared with normal glucose-treated lens cells and in crystalline protein solution. P, PM, and NAC significantly decreased the protein oxidation in lens cells and crystalline protein solution. We also found significantly higher levels of protein oxidation and turbidity (an index of protein aggregation) and its inhibition by P, PM, and NAC in HG-treated compared with normal glucose-treated albumin solution. This suggests that HG can cause the oxidation and modification of proteins in the lens, and that vitamin B6 and NAC supplementation may be helpful in slowing the oxidation of lens proteins. This study explains the cause of early cataract development and the potential benefit of supplementation with vitamin B6 and NAC in the prevention of the development of cataract among the diabetic population. 相似文献
24.
A simple, precise and rapid high performance thin layer chromatographic method has been developed for the simultaneous quantitative determination of five oleane derivatives, namely, arjunic acid, arjunolic acid, arjungenin, arjunetin and arjunglucoside I from stem bark extract of Terminalia arjuna. The isolation and separation of these compounds was carried out on 60F254 layers eluted with chloroform:methanol (90:10), and the analytes were visualised through colour development with vanillin in concentrated sulphuric acid:ethanol. Scanning and quantification of the spots at 640 nm showed good recoveries in the range 96.40-101.7%. 相似文献
25.
Sivaram AG Suresh MV Indira M 《Comparative biochemistry and physiology. Toxicology & pharmacology : CBP》2003,134(3):397-401
Oxidative stress is a key step in the pathogenesis of ethanol associated liver injury. Ethanol administration induces an increase in lipid peroxidation either by enhancing the production of oxygen reactive species or by decreasing the level of endogenous antioxidants. In this present study, four groups of male guinea pigs (Cavia porcellus) were maintained for 45 days as follows: Control group (1 mg ascorbic acid (AA)/100 g body wt./day); Ethanol group (1 mg AA/100 g body wt./day+900 mg ethanol/100 g body wt./day); Selenium+AA group (25 mg AA+0.05 mg sodium selenite/100 g body wt./day); Ethanol+Se+AA group (25 mg AA+0.05 mg sodium selenite/100 g body wt.+900 mg ethanol/100 g body wt./day). Malondialehyde (MDA), hydroperoxides (HP) and conjugated dienes (CD) were significantly increased, while the activities of scavenging enzymes superoxide dismutase (SOD) and catalase were reduced in the alcohol administered groups. Co-administration of Se+AA along with alcohol increased the activities of scavenging enzymes and reduced the lipid peroxidation products level in hepatic tissues of guinea pigs. Activities of glutathione peroxidase (GPX) and glutathione reductase (GR) were enhanced in co-administered group. gamma-Glutamyl transpeptidase (GGT), a marker enzyme of alcohol induced toxicity, was also reduced, as was the glutathione content. This study suggests that the combined effect of Se+AA, provides protection against alcohol-induced oxidative stress as evidenced from the decreased levels of lipid peroxidation products and enhanced activities of scavenging enzymes. 相似文献
26.
Vasdev S Gill V Longerich L Parai S Gadag V 《Molecular and cellular biochemistry》2003,254(1-2):319-326
There is strong evidence that points to excess dietary salt as a major factor contributing to the development of hypertension. Salt sensitivity is associated with glucose intolerance and insulin resistance in both animal models and humans. In insulin resistance, impaired glucose metabolism leads to elevated endogenous aldehydes which bind to vascular calcium channels, increasing cytosolic [Ca2+]i and blood pressure. In an insulin resistant animal model of hypertension, spontaneously hypertensive rats (SHRs), dietary supplementation with lipoic acid lowers tissue aldehydes and plasma insulin levels and normalizes blood pressure. The objective of this study is to examine the effects of a high salt diet on tissue aldehydes, cytosolic [Ca2+]i and blood pressure in WKY rats and to investigate whether dietary supplementation with lipoic acid can prevent a salt induced increase in blood pressure. Starting at 7 weeks of age, WKY rats were divided into three groups of six animals each and treated for 10 weeks with diets as follows: WKY-normal salt (0.7% NaCl); WKY-high salt (8% NaCl); WKY-high salt + lipoic acid (8% NaCl diet + lipoic acid 500 mg/Kg feed). At completion, animals in the high salt group had elevated systolic blood pressure, platelet [Ca2+]i, and tissue aldehyde conjugates compared with the normal salt group and showed smooth muscle cell hyperplasia in the small arteries and arterioles of the kidneys. Dietary -lipoic acid supplementation in high salt-treated WKY rats normalized systolic blood pressure and cytosolic [Ca2+]i and aldehydes in liver and aorta. Kidney aldehydes and renal vascular changes were attenuated, but not normalized. 相似文献
27.
Menthol is a highly valued monoterpene produced by Japanese mint (Mentha arvensis) as a natural product with wide applications in cosmetics, confectionery, flavours, beverages and therapeutics. Selection
of high menthol yielding genotypes is therefore the ultimate objective of all genetic improvement programmes inMentha arvensis. A positive correlation was observed in the present study between menthol content in oils of evaluated genotypes and the
level of tolerance to externally supplied menthol of explants of these genotypes in culture medium. The easy use of this relationship
as a selectable biochemical marker opens the practical applicability of largescalein vitro screening of the germplasm, clones and breeders' material for selection of elite genotypes. 相似文献
28.
Evidence for the induction of apoptosis by endosulfan in a human T-cell leukemic line 总被引:6,自引:0,他引:6
Kannan K Holcombe RF Jain SK Alvarez-Hernandez X Chervenak R Wolf RE Glass J 《Molecular and cellular biochemistry》2000,205(1-2):53-66
Several organochlorinated pesticides including DDT, PCBs and dieldrin have been reported to cause immune suppression and increase susceptibility to infection in animals. Often this manifestation is accompanied by atrophy of major lymphoid organs. It has been suggested that increased apoptotic cell death leading to altered T-B cell ratios, and loss of regulatory cells in critical numbers leads to perturbations in immune function. The major objective of our study was to define the mechanism by which endosulfan, an organochlorinated pesticide, induces human T-cell death using Jurkat, a human T-cell leukemic cell line, as an in vitro model. We exposed Jurkat cells to varying concentrations of endosulfan for 0-48 h and analyzed biochemical and molecular features characteristic of T-cell apoptosis. Endosulfan lowered cell viability and inhibited cell growth in a dose- and time-dependent manner. DAPI staining was used to enumerate apoptotic cells and we observed that endosulfan at 10-200 M induced a significant percentage of cells to undergo apoptotic cell death. At 48 h, more than 90% cells were apoptotic with 50 M of endosulfan. We confirmed these observations using both DNA fragmentation and annexin-V binding assays. It is now widely being accepted that mitochondria undergo major changes early during the apoptotic process. We examined mitochondrial transmembrane potential (m) in endosulfan treated cells to understand the role of the mitochondria in T-cell apoptosis. Within 30 min of chemical exposure, a significant percentage of cells exhibited a decreased incorporation of DiOC6(3), a cationic lipophilic dye into mitochondria indicating the disruption of m. This drop in m was both dose- and time-dependent and correlated well with other parameters of apoptosis. We also examined whether this occurred by the down regulation of bcl-2 protein expression that is likely to increase the susceptibility of Jurkat cells to endosulfan toxicity. Paradoxically, the intracellular expression of bcl-2 protein was elevated in a dose dependent manner suggesting endosulfan-induced apoptosis occurred by a non-bcl-2 pathway. Based on these data, as well as those reported elsewhere, we propose the following sequence of events to account for T-cell apoptosis induced by endosulfan: uncoupling of oxidative phosphorylation excess ROS production GSH depletion oxidative stress disruption of m release of cytochrome C and other apoptosis related proteins to cytosol apoptosis. This study reports for the first time that endosulfan can induce apoptosis in a human T-cell leukemic cell line which may have direct relevance to loss of T cells and thymocytes in vivo. Furthermore, our data strongly support a role of mitochondrial dysfunction and oxidative stress in endosulfan toxicity. 相似文献
29.
Ajit Kumar Shasany Suman P. S. Khanujia Sunita Dhawan Usha Yadav Srikant Sharma Sushil Kumar 《Journal of biosciences》1998,23(5):641-646
Media and incubation conditions have been defined for highly efficient regeneration of shoots from internode explants of slow
and fast growing cultivars ofMentha arvensis. Internodal segments excised from thein vitro raised shoots were inoculated on the MS medium supplemented with combinations of 5 concentrations of l-napthalene acetic
acid (NAA) and 3 concentrations of 6-benzyl amino purine (BAP). The media containing 2 μg ml−1 NAA, 10 Μg ml−1 BAP and 1 μg ml−1 NAA, 5 μg ml−1 BAP proved best for shoot regeneration and growth responses on cv Himalaya and cv Kalka explants, respectively. In 12 weeks
time, on average one explant of cv Himalaya produced about 200 shoots and that of cv Kalka produced about 180 shoots. The
Himalaya explants required higher concentrations of NAA and BAP for high efficiency proliferation as compared to the Kalka
explants. The experiments demonstrated that internodal tissue inMentha arvensis can be induced to obtain direct shoot regenerants with high efficiency. The analysis of the RAPD profiles of 100 regenerated
plantlets each of cv Himalaya and Kalka showed more than 99.9% homogeneity in bands with respect to the parents. 相似文献
30.
Linlin Zhong Tsung-Yin J. Yeh Jun Hao Nasim Pourtabatabaei Sushil K. Mahata Jianhua Shao Steven D. Chessler Nai-Wen Chi 《PloS one》2015,10(4)
The poly-ADP-ribosylation (PARsylation) activity of tankyrase (TNKS) regulates diverse physiological processes including energy metabolism and wnt/β-catenin signaling. This TNKS activity uses NAD+ as a co-substrate to post-translationally modify various acceptor proteins including TNKS itself. PARsylation by TNKS often tags the acceptors for ubiquitination and proteasomal degradation. Whether this TNKS activity is regulated by physiological changes in NAD+ levels or, more broadly, in cellular energy charge has not been investigated. Because the NAD+ biosynthetic enzyme nicotinamide phosphoribosyltransferase (NAMPT) in vitro is robustly potentiated by ATP, we hypothesized that nutritional energy might stimulate cellular NAMPT to produce NAD+ and thereby augment TNKS catalysis. Using insulin-secreting cells as a model, we showed that glucose indeed stimulates the autoPARsylation of TNKS and consequently its turnover by the ubiquitin-proteasomal system. This glucose effect on TNKS is mediated primarily by NAD+ since it is mirrored by the NAD+ precursor nicotinamide mononucleotide (NMN), and is blunted by the NAMPT inhibitor FK866. The TNKS-destabilizing effect of glucose is shared by other metabolic fuels including pyruvate and amino acids. NAD+ flux analysis showed that glucose and nutrients, by increasing ATP, stimulate NAMPT-mediated NAD+ production to expand NAD+ stores. Collectively our data uncover a metabolic pathway whereby nutritional energy augments NAD+ production to drive the PARsylating activity of TNKS, leading to autoPARsylation-dependent degradation of the TNKS protein. The modulation of TNKS catalytic activity and protein abundance by cellular energy charge could potentially impose a nutritional control on the many processes that TNKS regulates through PARsylation. More broadly, the stimulation of NAD+ production by ATP suggests that nutritional energy may enhance the functions of other NAD+-driven enzymes including sirtuins. 相似文献