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71.
Kumari Jyoti Haque Md. Intesaful Jha Rajesh K. Rathore Mangal S. 《Molecular biology reports》2022,49(5):3729-3743
Molecular Biology Reports - Plant establishment, growth, development and productivity are adversely affected by abiotic stresses that are dominant characteristics of environmentally... 相似文献
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74.
S. Jha 《Molecular ecology》2015,24(5):993-1006
Much of the world's terrestrial landscapes are being altered by humans in the form of agriculture, urbanization and pastoral systems, with major implications for biodiversity. Bumble bees are one of the most effective pollinators in both natural and cultivated landscapes, but are often the first to be extirpated in human‐altered habitats. Yet, little is known about the role of natural and human‐altered habitats in promoting or limiting bumble bee gene flow. In this study, I closely examine the genetic structure of the yellow‐faced bumble bee, Bombus vosnesenskii, across the southwestern US coast and find strong evidence that natural oceanic barriers, as well as contemporary human‐altered habitats, limit bee gene flow. Heterozygosity and allelic richness were lower in island populations, while private allelic richness was higher in island populations compared to mainland populations. Genetic differentiation, measured for three indices across the 1000 km study region, was significantly greater than the null expectation (FST = 0.041, F’ST = 0.044 and Dest = 0.155) and correlated with geographic distance. Furthermore, genetic differentiation patterns were most strongly correlated with contemporary (2011) not past (2006, 2001) resistance maps calibrated for high dispersal limitation over oceans, impervious habitat and croplands. Despite the incorporation of dramatic elevation gradients, the analyses reveal that oceans and contemporary human land use, not mountains, are the primary dispersal barriers for B. vosnesenskii gene flow. These findings reinforce the importance of maintaining corridors of suitable habitat across the distribution range of native pollinators to promote their persistence and safeguard their ability to provide essential pollination services. 相似文献
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Gupta G Bhaskar AS Tripathi BK Pandey P Boopathi M Rao PV Singh B Vijayaraghavan R 《Biosensors & bioelectronics》2011,26(5):2534-2540
A π-conjugated molecularly imprinted polymer (MIP) with nanopatterns for T-2 toxin (T-2) was prepared on SPR chip by in situ electropolymerization of 3-aminophenylboronicacid (3-APBA) with T-2. The complete removal of T-2 from polymer was confirmed in situ by SPR and EIS and also ex situ by SEM, EDAX, fluorescence microscopy and Raman spectroscopy. SEM image of T-2 MIP exhibited nanopatterns due to imprinting of T-2. The MIP of T-2 showed a linear response for T-2 from 2.1 fM to 33.6 fM with a detection limit of 0.1 fM (0.05 pg/mL). In this study, thermodynamic parameters such as change in Gibb's free energy (ΔG), change in enthalpy (ΔH) and change in entropy (ΔS) were determined and the values revealed that the interaction between T-2 and T-2 MIP as spontaneous, endothermic and entropy driven one. Moreover, interactions of very high concentration of interferents with T-2 MIP showed very less response due to the presence of nanopatterns of T-2 in the T-2 MIP. Equilibrium constant (12.7 fM) obtained in this study indicates the super binding affinity of T-2 with T-2 MIP. Moreover, the present methodology provides an outline to develop field-detection equipment capable of detecting T-2 toxin at or well below the guideline concentrations recommended by American subcommittee on military field drinking water. 相似文献
77.
Ravindra Pal Singh Vishal Gupta Puja Kumari Manoj Kumar C. R. K. Reddy Kamalesh Prasad Bhavanath Jha 《Journal of applied phycology》2011,23(4):755-762
The extracellular enzyme alginate lyase produced from marine fungus Aspergillus oryzae isolated from brown alga Dictyota dichotoma was purified, partially characterized, and evaluated for its sodium alginate depolymerization abilities. The enzyme characterization
studies have revealed that alginate lyase consisted of two polypeptides with about 45 and 50 kDa each on 10% sodium dodecyl
sulfate polyacrylamide gel electrophoresis and showed 140-fold higher activity than crude enzyme under optimized pH (6.5)
and temperature (35°C) conditions. Zn2+, Mn2+, Cu2+, Mg2+, Co2+ and NaCl were found to enhance the enzyme activity while (Ca2+, Cd2+, Fe2+, Hg2+, Sr2+, Ni2+), glutathione, and metal chelators (ethylenediaminetetraacetic acid and ethylene glycol tetraacetic acid) suppressed the
activity. Fourier transform infrared and thin-layer chromatography analysis of depolymerized sodium alginate indicated the
enzyme specificity for cleaving at the β-1,4 glycosidic bond between polyM and polyG blocks of sodium alginate and therefore
resulted in estimation of relatively higher polyM content than polyG. Comparison of chemical shifts in 13C nuclear magnetic resonance spectra of both polyM and polyG from that of sodium alginate also showed further evidence for
enzymatic depolymerization of sodium alginate. 相似文献
78.
CyLoP-1: a novel cysteine-rich cell-penetrating peptide for cytosolic delivery of cargoes 总被引:1,自引:0,他引:1
Jha D Mishra R Gottschalk S Wiesmüller KH Ugurbil K Maier ME Engelmann J 《Bioconjugate chemistry》2011,22(3):319-328
Cell-penetrating peptides (CPPs) may have impli-cations in biomedical sciences by improving the delivery of a wide variety of drugs through the membrane barrier. CPPs are generally taken up by endocytotic pathways, and vesicular encapsulation is a limiting factor in the area of intracellular targeting. A novel, cationic cysteine-rich CPP, CyLoP-1, has been developed exhibiting distinguished diffused cytosolic distribution along with endosomal uptake at low micromolar concentrations. Comparative uptake analysis with known CPPs showed CyLoP-1 as a promising delivery vector to access the cytosol in a variety of cell types. In addition to the positively charged residues, the presence of cysteines and tryptophans proved to be essential to maintain its functionality. Also, the oxidation status of the cysteines played an important role for the uptake efficiency of CyLoP-1, with the disulfide-containing form being more effective. The distinct feature of CyLoP-1 to enter the cytosol was further explored by the covalent attachment of cargoes of different nature and sizes. In particular, induction of caspase-3 activity (indicating apoptosis) by a CyLoP-1-SmacN7 conjugate proved successful delivery of the pro-apoptotic cargo to its site of action in the cytosol. Efficient intracellular delivery into the entire cytosol already at low micromolar concentrations makes CyLoP-1 a promising candidate for cytosolic delivery of cargoes of small sizes. Thus, this peptide might prove to be useful for efficient transmembrane delivery of agents directed to cytosolic targets. 相似文献
79.
Tworkoski K Singhal G Szpakowski S Zito CI Bacchiocchi A Muthusamy V Bosenberg M Krauthammer M Halaban R Stern DF 《Molecular cancer research : MCR》2011,9(6):801-812
Therapies directed against receptor tyrosine kinases are effective in many cancer subtypes, including lung and breast cancer. We used a phosphoproteomic platform to identify active receptor tyrosine kinases that might represent therapeutic targets in a panel of 25 melanoma cell strains. We detected activated receptors including TYRO3, AXL, MERTK, EPHB2, MET, IGF1R, EGFR, KIT, HER3, and HER4. Statistical analysis of receptor tyrosine kinase activation as well as ligand and receptor expression indicates that some receptors, such as FGFR3, may be activated via autocrine circuits. Short hairpin RNA knockdown targeting three of the active kinases identified in the screen, AXL, HER3, and IGF1R, inhibited the proliferation of melanoma cells and knockdown of active AXL also reduced melanoma cell migration. The changes in cellular phenotype observed on AXL knockdown seem to be modulated via the STAT3 signaling pathway, whereas the IGF1R-dependent alterations seem to be regulated by the AKT signaling pathway. Ultimately, this study identifies several novel targets for therapeutic intervention in melanoma. 相似文献
80.
1-deoxy-D-xylulose 5-phosphate reductoisomerase (Dxr) is involved in the synthesis of isoprenoids by the methylerythritol phosphate pathway. Dxr is essential in Mycobacterium tuberculosis (Mtu), absent in humans and amenable to structure-aided design. To further assess the druggability of the enzyme, the energetics of binding of fosmidomycin to Mtu Dxr was studied by isothermal calorimetry. Binding was enhanced by nicotinamide adenine dinucleotide phosphate hydrogen (NADPH) and driven by enthalpy (ΔH -10.2 kcal/mol, ΔS 1.1 cal mol(-1)K(-1)). This suggests the possibility of finding novel inhibitors that bind enthalpically, making Dxr an attractive target. The cost of the Dxr substrate, 1-deoxy-D-xylulose-5-phosphate, for high-throughput screening (HTS) is prohibitive. Hence, an HTS assay that couples Dxr to the upstream enzyme 1-deoxy-D-xylulose-5-phosphate synthase (Dxs), also a valid target, was developed. A high concentration of NADPH was used to bias it to detect Dxr inhibitors that bind like fosmidomycin. The assay Z' was 0.75. It was equally sensitive to inhibitors of Dxs and Dxr, that is, fosmidomycin and fluropyruvate inhibited it with IC(50)s similar to that in the individual enzyme assays (79 vs 54 nM for fosmidomycin). To distinguish inhibitors of Dxs from Dxr, individual enzyme assays and a microplate thermofluor binding assay were developed. The assay simultaneously screens two targets and is cost-effective. 相似文献