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991.
Flora SJ Mehta A Gautam P Jatav PC Pathak U 《Biological trace element research》2007,120(1-3):235-247
Thiols are known to act as protectants in the biological system for their involvement in a number of metabolic regulations.
In this study, we investigated the effect of a new and potent thiol-chelating agent, monoisoamyl 2,3-dimercaptosuccinic acid
(MiADMSA), an analog of meso 2,3-dimercaptosuccinic acid, to find out if it could act as a prooxidant (because of its lipophilic
character) or antioxidant (because of thiol moiety) that could supplement its chelating properties in different age groups
of male rats (young, adult, and old rats) and produce effective clinical recoveries in the treatment of metal intoxication.
Animals were treated with 25, 50, and 100 mg/kg of MiADMSA, i.p, once daily for 1 week to assess the effect on the antioxidant
system in major organs based on sensitive biochemical variables indicative of oxidative stress. Results suggested that MiADMSA
administration increased the activity of d-aminolevulinic acid dehydratase in all the age groups and increased blood glutathione (GSH) levels in young rats. MiADMSA
also potentiated the synthesis of metallothioneine in liver and kidneys and GSH levels in liver and brain. Apart from this
it also significantly reduced the glutathione disulfide levels in tissues. However, administration of MiADMSA caused some
concern over the copper loss. MiADMSA was found to be safe in rats of all ages. 相似文献
992.
Toro-Castillo C Thapliyal A Gonzalez-Ochoa H Adams BA Meza U 《American journal of physiology. Cell physiology》2007,292(1):C573-C580
Ca2+ influx through voltage-gated R-type (CaV2.3) Ca2+ channels is important for hormone and neurotransmitter secretion and other cellular events. Previous studies have shown that CaV2.3 is both inhibited and stimulated through signaling mechanisms coupled to muscarinic ACh receptors. We previously demonstrated that muscarinic stimulation of CaV2.3 is blocked by regulator of G protein signaling (RGS) 2. Here we investigated whether muscarinic inhibition of CaV2.3 is antagonized by RGS3. RGS3 is particularly interesting because it contains a lengthy (380 residue) amino-terminal domain of uncertain physiological function. CaV2.3, M2 muscarinic ACh receptors (M2R), and various deletion mutants of RGS3, including its native isoform RGS3T, were expressed in HEK293 cells, and agonist-dependent inhibition of CaV2.3 was quantified using whole cell patch-clamp recordings. Full-length RGS3, RGS3T, and the core domain of RGS3 were equally effective in antagonizing inhibition of CaV2.3 through M2R. These results identify RGS3 and RGS3T as potential physiological regulators of R-type Ca2+ channels. Furthermore, they suggest that the signaling activity of RGS3 is unaffected by its extended amino-terminal domain. Confocal microscopy was used to examine the intracellular locations of four RGS3-enhanced green fluorescent protein fusion proteins. The RGS3 core domain was uniformly distributed throughout both cytoplasm and nucleus. By contrast, full-length RGS3, RGS3T, and the amino-terminal domain of RGS3 were restricted to the cytoplasm. These observations suggest that the amino terminus of RGS3 may serve to confine it to the cytoplasmic compartment where it can interact with cell surface receptors, heterotrimeric G proteins, and other signaling proteins. calcium channels; regulator of G protein signaling proteins; muscarinic acetylcholine receptors; enhanced green fluorescent protein-fusion proteins; voltage-gated R-type calcium channels 相似文献
993.
O. Prakash M. Verma P. Sharma M. Kumar K. Kumari A. Singh H. Kumari S. Jit S. K. Gupta M. Khanna R. Lal 《Indian journal of microbiology》2007,47(2):98-108
Classification of microorganisms on the basis of traditional microbiological methods (morphological, physiological and biochemical)
creates a blurred image about their taxonomic status and thus needs further clarification. It should be based on a more pragmatic
approach of deploying a number of methods for the complete characterization of microbes. Hence, the methods now employed for
bacterial systematics include, the complete 16S rRNA gene sequencing and its comparative analysis by phylogenetic trees, DNA-DNA
hybridization studies with related organisms, analyses of molecular markers and signature pattern(s), biochemical assays,
physiological and morphological tests. Collectively these genotypic, chemotaxonomic and phenotypic methods for determining
taxonomic position of microbes constitute what is known as the ‘polyphasic approach’ for bacterial systematics. This approach
is currently the most popular choice for classifying bacteria and several microbes, which were previously placed under invalid
taxa have now been resolved into new genera and species. This has been possible owing to rapid development in molecular biological
techniques, automation of DNA sequencing coupled with advances in bioinformatic tools and access to sequence databases. Several
DNA-based typing methods are known; these provide information for delineating bacteria into different genera and species and
have the potential to resolve differences among the strains of a species. Therefore, newly isolated strains must be classified
on the basis of the polyphasic approach. Also previously classified organisms, as and when required, can be reclassified on
this ground in order to obtain information about their accurate position in the microbial world. Thus, current techniques
enable microbiologists to decipher the natural phylogenetic relationships between microbes. 相似文献
994.
Agricultural soils in North America can be a sink for rising atmospheric CO2 concentrations through the formation of soil organic matter (SOM) or humus. Humification is limited by the availability of nutrients such as nitrogen (N). Recommended management practices (RMPs) that optimize N availability foster humus formation. This review examines the management practices that contribute to maximizing N availability for optimizing sequestration of atmospheric CO2 into soil humus. Farming practices that enhance nutrient use, reduce or eliminate tillage, and increase crop intensity, together, affect N availability and, therefore, C sequestration. N additions, from especially, livestock manure and leguminous cover crops are necessary for increasing grain and biomass yields and returning crop residues to the soil thereby increasing soil organic carbon (SOC) concentration. Conservation tillage practices enhance also the availability of N and increase SOC concentration. Increase in cropping intensity and/or crop rotations produce higher quantity and quality of residues, increase availability of N, and therefore foster increase in C sequestration. The benefit of C sequestration from N additions may be negated by CO2 and N2O emissions associated with production and application of N fertilizers. More studies need to be conducted to ascertain the benefits of adding N via manuring versus N fertilizer additions. Furthermore, site specific adaptive research is needed to identify RMPs that optimize soil N use efficiency while improving crop yield and C sequestration thereby curbing greenhouse gas (GHG) emissions. Due to the wide range of climate in North America, there is a large range of C sequestration potential in agricultural soils through N management. Humid croplands may have the potential to sequester 8–298 Tg C yr?1 while dry croplands may sequester 1–35 Tg C yr?1. These estimates, however, are highly uncertain and wide-ranging. Clearly, more research is needed to quantify, more precisely, the C sequestration potential across different N management scenarios especially in Mexico and Canada. 相似文献
995.
BioMetals - Nanotechnology is one of the most promising and advanced disciplines of science that deals with synthesis, characterization and applications of different types of Nanomaterials (NMs)... 相似文献
996.
Rainy Agrawal Mohammad Khursheed Siddiqi Yamini Thakur Mamta Tripathi Ashish K. Asatkar Rizwan Hasan Khan Rama Pande 《Luminescence》2019,34(6):628-643
In the present investigation, the protein‐binding properties of naphthyl‐based hydroxamic acids (HAs), N‐1‐naphthyllaurohydroxamic acid ( 1 ) and N‐1‐naphthyl‐p‐methylbenzohydroxamic acid ( 2 ) were studied using bovine serum albumin (BSA) and UV–visible spectroscopy, fluorescence spectroscopy, diffuse reflectance spectroscopy–Fourier transform infrared (DRS–FTIR), circular dichroism (CD), and cyclic voltammetry along with computational approaches, i.e. molecular docking. Alteration in the antioxidant activities of compound 1 and compound 2 during interaction with BSA was also studied. From the fluorescence studies, thermodynamic parameters such as Gibb's free energy (ΔG), entropy change (ΔS) and enthalpy change (ΔH) were calculated at five different temperatures (viz., 298, 303, 308, 313 or 318 K) for the HAs–BSA interaction. The results suggested that the binding process was enthalpy driven with dominating hydrogen bonds and van der Waals’ interactions for both compounds. Warfarin (WF) and ibuprofen (IB) were used for competitive site‐specific marker binding interaction and revealed that compound 1 and compound 2 were located in subdomain IIA (Sudlow's site I) on the BSA molecule. Conclusions based on above‐applied techniques signify that various non‐covalent forces were involved during the HAs–BSA interaction. Therefore the resulted HAs–BSA interaction manifested its effect in transportation, distribution and metabolism for the drug in the blood circulation system, therefore establishing HAs as a drug‐like molecule. 相似文献
997.
A Novel Role for Protein Kinase Kin2 in Regulating HAC1 mRNA Translocation,Splicing, and Translation
Ashish Anshu M. Amin-ul Mannan Abhijit Chakraborty Saikat Chakrabarti Madhusudan Dey 《Molecular and cellular biology》2015,35(1):199-210
A signaling network called the unfolded protein response (UPR) resolves the protein-folding defects in the endoplasmic reticulum (ER) from yeasts to humans. In the yeast Saccharomyces cerevisiae, the UPR activation involves (i) aggregation of the ER-resident kinase/RNase Ire1 to form an Ire1 focus, (ii) targeting HAC1 pre-mRNA toward the Ire1 focus that cleaves out an inhibitory intron from the mRNA, and (iii) translation of Hac1 protein from the spliced mRNA. Targeting HAC1 mRNA to the Ire1 focus requires a cis-acting bipartite element (3′BE) located at the 3′ untranslated leader. Here, we report that the 3′BE plays an additional role in promoting translation from the spliced mRNA. We also report that a high dose of either of two paralogue kinases, Kin1 and Kin2, overcomes the defective UPR caused by a mutation in the 3′BE. These results define a novel role for Kin kinases in the UPR beyond their role in cell polarity and exocytosis. Consistently, targeting, splicing, and translation of HAC1 mRNA are substantially reduced in the kin1Δ kin2Δ strain. Furthermore, we show that Kin2 kinase domain itself is sufficient to activate the UPR, suggesting that Kin2 initiates a signaling cascade to ensure an optimum UPR. 相似文献
998.
999.
Dissemination of vancomycin resistance from hospital to community strains is a serious threat to public health. Our study aimed to provide evidence for transmission of Van A type resistance from the hospital to the community. Wild-type community and hospital associated methicillin resistant Staphylococcus aureus strains were studied in vitro and in a model that mimicked a natural environment to ascertain their ability to acquire and maintain the vancomycin resistance determinant (Van A gene) from vancomycin resistant Enterococcus faecalis. Fitness was assessed and the cost of Van A acquisition and retention was estimated. In vitro mating experiments were carried out using a filter mating technique and a model of a natural water body environment. Transfer of resistance was carried out in two different conditions: restricted and favorable. Transconjugants were confirmed by E test and PCR using specific primer sets. Growth kinetics and fitness measurements were done by spectrometric analysis. Using the in vitro filter mating technique, high transfer frequencies that ranged from 0.7 × 10–3(0.0006) to 3.1 × 10–4(0.00011) were recorded, with the highest transfer frequencies for CA MRSA (thermosensitively homogenous) (0.7 × 10–3), and 1.2 × 10–4 to 2.4 × 10–6 in the model. HA MRSA (homogenous) showed a greater capacity (3.6 × 10–4) to receive the Van A gene, while CA MRSA showed a reduced ability to maintain the gene after serial subcultures. CA and HA thermosensitively heterogeneous MRSA transconjugants exhibited higher growth rates. The present study provides evidence for the enhanced ability of CA and HA MRSA clones to acquire and maintain Van A type resistance. 相似文献