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排序方式: 共有198条查询结果,搜索用时 31 毫秒
101.
The enzymes decaprenylphosphoryl-β-D-ribose oxidase (DprE1) and decaprenylphosphoryl-β-D-ribose-2-epimerase (DprE2) catalyze epimerization of decaprenylphosporyl ribose (DPR) todecaprenylphosporyl arabinose (DPA) and are critical for the survival of Mtb. Crystal structures of DprE1 so far reported display significant disordered regions and no structural information is known for DprE2. We used homology modeling, protein threading, molecular docking and dynamics studies to investigate the structural and dynamic features of Mtb DprE1 and DprE2 and DprE1-DprE2 complex. A three-dimensional model for DprE2 was generated using the threading approach coupled with ab initio modeling. A 50 ns simulation of DprE1 and DprE2 revealed the overall stability of the structures. Principal Component Analysis (PCA) demonstrated the convergence of sampling in both DprE1 and DprE2. In DprE1, residues in the 269–330 area showed considerable fluctuation in agreement with the regions of disorder observed in the reported crystal structures. In DprE2, large fluctuations were detected in residues 95–113, 146–157, and 197–226. The study combined docking and MD simulation studies to map and characterize the key residues involved in DprE1-DprE2 interaction. A 60 ns MD simulation for DprE1-DprE2 complex was also performed. Analysis of data revealed that the docked complex is stabilized by H-bonding, hydrophobic and ionic interactions. The key residues of DprE1 involved in DprE1-DprE2 interactions belong to the disordered region. We also examined the docked complex of DprE1-BTZ043 to investigate the binding pocket of DprE1 and its interactions with the inhibitor BTZ043. In summary, we hypothesize that DprE1-DprE2 interaction is crucial for the synthesis of DPA and DprE1-DprE2 complex may be a new therapeutic target amenable to pharmacological validation. The findings have important implications in tuberculosis (TB) drug discovery and will facilitate drug development efforts against TB. 相似文献
102.
Arya SK Solanki PR Singh SP Kaneto K Pandey MK Datta M Malhotra BD 《Biosensors & bioelectronics》2007,22(11):2516-2524
Cholesterol oxidase (ChOx) has been covalently immobilized onto 1-fluoro-2-nitro-4-azidobenzene (FNAB) modified poly-(3-hexylthiophene) (P3HT) self-assembled monolayer (SAM) onto gold coated glass plates. These ChOx/FNAB/P3HT/Au bio-electrodes have been characterized using contact angle (CA) measurements, UV-vis spectroscopy, electrochemical impedance technique, cyclic voltammetric technique and atomic force microscopic (AFM) technique, respectively. The ChOx/FNAB/P3HT/Au bio-electrodes were utilized for the estimation of cholesterol concentration in standard solutions using surface plasmon resonance (SPR) technique. It is shown that this SPR biosensor has linearity from 50 to 500 mg/dl of cholesterol in solution with detection limit of 50 mg/dl, sensitivity of 1.0 4 m degrees /(mg dl), reusability of around 15 times and a shelf-life of about 10 weeks when stored at 4 degrees C. 相似文献
103.
Srivastava BK Solanki M Mishra B Soni R Jayadev S Valani D Jain M Patel PR 《Bioorganic & medicinal chemistry letters》2007,17(7):1924-1929
Synthesis and antibacterial activity of a number of substituted 4,5,6,7-tetrahydro-thieno[3,2-c]pyridine quinolones is reported. The antibacterial activities were evaluated in standard in vitro MIC assay method. Some of the compounds showed in vitro (MIC) antibacterial activity comparable to those of Gatifloxacin, Ciprofloxacin, and Sparfloxacin. 相似文献
104.
Arterial smooth muscle cells (ASMCs), the predominant cell type within the arterial wall, detect and respond to external mechanical forces. These forces can be derived from blood flow (i.e. pressure and stretch) or from the supporting extracellular matrix (i.e. stiffness and topography). The healthy arterial wall is elastic, allowing the artery to change shape in response to changes in blood pressure, a property known as arterial compliance. As we age, the mechanical forces applied to ASMCs change; blood pressure and arterial wall rigidity increase and result in a reduction in arterial compliance. These changes in mechanical environment enhance ASMC contractility and promote disease-associated changes in ASMC phenotype. For mechanical stimuli to programme ASMCs, forces must influence the cell’s load-bearing apparatus, the cytoskeleton. Comprised of an interconnected network of actin filaments, microtubules and intermediate filaments, each cytoskeletal component has distinct mechanical properties that enable ASMCs to respond to changes within the mechanical environment whilst maintaining cell integrity. In this review, we discuss how mechanically driven cytoskeletal reorganisation programmes ASMC function and phenotypic switching. 相似文献
105.
Vipul Solanki Karen Krüger Conor J. Crawford Alonso Pardo-Vargas Jos Danglad-Flores Kim Le Mai Hoang Leeann Klassen D. Wade Abbott Peter H. Seeberger Rudolf I. Amann Hanno Teeling Jan-Hendrik Hehemann 《The ISME journal》2022,16(7):1818
Microbial glycan degradation is essential to global carbon cycling. The marine bacterium Salegentibacter sp. Hel_I_6 (Bacteroidota) isolated from seawater off Helgoland island (North Sea) contains an α-mannan inducible gene cluster with a GH76 family endo-α-1,6-mannanase (ShGH76). This cluster is related to genetic loci employed by human gut bacteria to digest fungal α-mannan. Metagenomes from the Hel_I_6 isolation site revealed increasing GH76 gene frequencies in free-living bacteria during microalgae blooms, suggesting degradation of α-1,6-mannans from fungi. Recombinant ShGH76 protein activity assays with yeast α-mannan and synthetic oligomannans showed endo-α-1,6-mannanase activity. Resolved structures of apo-ShGH76 (2.0 Å) and of mutants co-crystalized with fungal mannan-mimicking α-1,6-mannotetrose (1.90 Å) and α-1,6-mannotriose (1.47 Å) retained the canonical (α/α)6 fold, despite low identities with sequences of known GH76 structures (GH76s from gut bacteria: <27%). The apo-form active site differed from those known from gut bacteria, and co-crystallizations revealed a kinked oligomannan conformation. Co-crystallizations also revealed precise molecular-scale interactions of ShGH76 with fungal mannan-mimicking oligomannans, indicating adaptation to this particular type of substrate. Our data hence suggest presence of yet unknown fungal α-1,6-mannans in marine ecosystems, in particular during microalgal blooms.Subject terms: Metagenomics, Microbial ecology, Structural biology, Fungal ecology, Molecular ecology 相似文献
106.
107.
Arya SK Prusty AK Singh SP Solanki PR Pandey MK Datta M Malhotra BD 《Analytical biochemistry》2007,363(2):210-218
Cholesterol oxidase (ChOx) has been covalently immobilized onto two-dimensional self-assembled monolayer (SAM) of N-(2-aminoethyl)-3-aminopropyl-trimethoxysilane (AEAPTS) deposited on the indium-tin oxide (ITO) coated glass plates using N-ethyl-N'-(3-dimethylaminopropyl) carbodiimide and N-hydroxysuccinimide (EDC/NHS) chemistry. These ChO x/AEAPTS/ITO bioelectrodes are characterized using contact angle (CA) measurements, UV-visible spectroscopy, atomic force microscopy (AFM), electrochemical impedance technique, and Fourier transform infrared (FT-IR) technique. The covalently immobilized ChOx-modified AEAPTS bioelectrodes are used for the estimation of cholesterol in solution using UV-visible technique. These cholesterol sensing bioelectrodes show linearity as 50 to 500 mg/dl for cholesterol solution, detection limit as 25mg/dl, sensitivity as 4.499 x 10(-5) Abs (mg/dl)(-1), K(m) value as 58.137 mg/dl (1.5mM), apparent enzyme activity as 1.81 x 10(-3) U cm(-2), shelf life of approximately 10 weeks, and electrode reusability as 10 times. 相似文献
108.
Heavy metal contamination of soil, aqueous waste stream and ground water causes major environmental and human health problems.
Heavy metals are major environmental pollutants when they are present in high concentration in soil and show potential toxic
effects on growth and development in plants. Due to unabated, indiscriminate and uncontrolled discharge of hazardous chemicals
including heavy metals into the environment, plant continuously have to face various environmental constraints. In plants,
seed germination is the first exchange interface with the surrounding medium and has been considered as highly sensitive to
environmental changes. One of the crucial events during seed germination entails mobilization of seed reserves which is indispensable
for the growth of embryonic axis. But, metabolic alterations by heavy metal exposure are known to depress the mobilization
and utilization of reserve food by affecting the activity of hydrolytic enzymes. Some plants possess a range of potential
mechanisms that may be involved in the detoxification of heavy metals by which they manage to survive under metal stress.
High tolerance to heavy metal toxicity could rely either on reduced uptake or increase planned internal sequestration which
is manifested by an interaction between a genotype and its environment. Such mechanism involves the binding of heavy metals
to cell wall, immobilization, exclusion of the plasma membrane, efflux of these toxic metal ions, reduction of heavy metal
transport, compartmentalization and metal chelation by tonoplast located transporters and expression of more general stress
response mechanisms such as stress proteins. It is important to understand the toxicity response of plant to heavy metals
so that we can utilize appropriate plant species in the rehabilitation of contaminated areas. Therefore, in the present review
attempts have been made to evaluate the effects of increasing level of heavy metal in soils on the key behavior of hydrolytic
and nitrogen assimilation enzymes. Additionally, it also provides a broad overview of the strategies adopted by plants against
heavy metal stress. 相似文献
109.
Brooke N. Horton Rajanikant B. Solanki Kiran F. Rajneesh Piotr Kulesza Agnieszka A. Ardelt 《The journal of histochemistry and cytochemistry》2010,58(1):53-60
Angiopoietin-1 (Angpt1; previously Ang-1) participates in vascular maintenance and remodeling. In the current study, we investigated the distribution of Angpt1 protein in rat brain. We detected Angpt1 immunoreactivity (IR) in cerebral blood vessels, cuboidal ependyma, and tanycytes, which are specialized hypothalamic bipolar ependymal cells. We also evaluated patterns of IR of endothelium-specific receptor tyrosine kinase 2 (Tie2, the receptor for Angpt1). Tie2 IR was present in Angpt1-immunoreactive cuboidal ependyma in a membranous pattern, suggesting an autocrine or paracrine role for Angpt1–Tie2. Tie2 IR was also associated with peri-ependymal blood vessels, some of which were contacted by tips of Angpt1-immunoreactive tanycyte processes, implying a potential functional ligand−receptor interaction mediating communication between the cerebrospinal fluid and vascular compartments. Because we previously found that cerebral Angpt1 expression was modulated by 17β-estradiol (E2), and because some tanycyte functions are modulated by E2, we tested the hypothesis that E2 affects ependymal and tanycyte Angpt1 expression in vivo. No gross E2 effect on the ependymal pattern of Angpt1 IR or cerebral Angpt1 protein content was observed. (J Histochem Cytochem 58:53–60, 2010) 相似文献
110.