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61.
Amrita Saxena Richa Raghuwanshi Harikesh Bahadur Singh 《Journal of Plant Growth Regulation》2016,35(2):377-389
Biocontrol strategies have been mainly focused on proposing the use of biocontrol agents (BCAs) isolated from the rhizospheric region of the plant for protection against phytopathogens. The present study evaluates the effectiveness of phyllospheric Trichoderma isolates in elevating the defense responses in chilli against Colletotrichum capsici infection and comparing its efficiency to the conventionally recommended rhizospheric Trichoderma strains. The elicitation of the defense network in the plants was analyzed using biochemical assays for important enzymes, that is, PAL, PO, PPO, TPC, SOD along with the total protein level in challenged plants over untreated and unchallenged control plants. The results recorded 2.1, 5.18, 3, 0.67, and 0.5-fold increases in TPC, PAL, PO, PPO, and total protein content in BHUF4 (phyllopsheric Trichoderma isolate)-treated plants when compared to control plants under C. capsici challenge. This was at par with the increment recorded in T16A (rhizospheric Trichoderma isolate)-treated chilli plants. The increment in growth parameters was also recorded after treatment with the isolated Trichoderma strains. Interestingly, the phyllospheric isolate (BHUF4) treatment recorded comparable growth promotion in chilli plants recording 36, 62, and 60 % increases in one of the major parameters of plant growth, that is, root length, no. of leaves, and dry weight, respectively. This study proposes the use of combined application of both rhizospheric as well as phyllospheric Trichoderma isolates for better and all around protection of plants against foliar as well as soil phytopathogens. This would be a novel approach in biological control strategy for better management of anthracnose disease of chilli. 相似文献
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63.
Vinod. V. Sardana Jeffrey T. Blue Joan Zugay-Murphy Mohinder K. Sardana Lawrence C. Kuo 《Protein expression and purification》1999,16(3):440
The N-terminal domain of the hepatitis C virus (HCV) polyprotein containing the NS3 protease (residues 1027 to 1206) was expressed in Escherichia coli as a soluble protein under the control of the T7 promoter. The enzyme has been purified to homogeneity with cation exchange (SP-Sepharose HR) and heparin affinity chromatography in the absence of any detergent. The purified enzyme preparation was soluble and remained stable in solution for several weeks at 4°C. The proteolytic activity of the purified enzyme was examined, also in the absence of detergents, using a peptide mimicking the NS4A/4B cleavage site of the HCV polyprotein. Hydrolysis of this substrate at the expected Cys–Ala scissile bond was catalyzed by the recombinant protease with a pseudo second-order rate constant (kcat/KM) of 205 and 196,000 M−1 s−1, respectively, in the absence and presence of a central hydrophobic region (sequence represented by residues 21 to 34) of the NS4A protein. The rate constant in the presence of NS4A peptide cofactor was two orders of magnitude greater than reported previously for the NS3 protease domain. A significantly higher activity of the NS3 protease–NS4A cofactor complex was also observed with a substrate mimicking the NS4B/5A site (kcat/KM of 5180 ± 670 M−1 s−1). Finally, the optimal formation of a complex between the NS3 protease domain and the cofactor NS4A was critical for the high proteolytic activity observed. 相似文献
64.
Kirti Richa Callie W. Babbitt Nenad G. Nenadic Gabrielle Gaustad 《The International Journal of Life Cycle Assessment》2017,22(1):66-81
Purpose
The purpose of this study was to analyze the environmental trade-offs of cascading reuse of electric vehicle (EV) lithium-ion batteries (LIBs) in stationary energy storage at automotive end-of-life.Methods
Two systems were jointly analyzed to address the consideration of stakeholder groups corresponding to both first (EV) and second life (stationary energy storage) battery applications. The environmental feasibility criterion was defined by an equivalent-functionality lead-acid (PbA) battery. A critical methodological challenge addressed was the allocation of environmental impacts associated with producing LIBs across the EV and stationary use systems. The model also tested sensitivity to parameters such as the fraction of battery cells viable for reuse, service life of refurbished cells, and PbA battery efficiency.Results and discussion
From the perspective of EV applications, cascading reuse of an LIB in stationary energy storage can reduce net cumulative energy demand and global warming potential by 15 % under conservative estimates and by as much as 70 % in ideal refurbishment and reuse conditions. When post-EV LIB cells were compared directly to a new PbA system for stationary energy storage, the reused cells generally had lower environmental impacts, except in scenarios where very few of the initial battery cells and modules could be reused and where reliability was low (e.g., life span of 1 year or less) in the secondary application.Conclusions
These findings demonstrate that EV LIB reuse in stationary application has the potential for dual benefit—both from the perspective of offsetting initial manufacturing impacts by extending battery life span as well as avoiding production and use of a less-efficient PbA system. It is concluded that reuse decisions and diversion of EV LIBs toward suitable stationary applications can be based on life cycle centric studies. However, technical feasibility of these systems must still be evaluated, particularly with respect to the ability to rapidly analyze the reliability of EV LIB cells, modules, or packs for refurbishment and reuse in secondary applications.65.
Activation of brain‐derived neurotrophic factor‐tropomyosin receptor kinase B signaling in the pedunculopontine tegmental nucleus: a novel mechanism for the homeostatic regulation of rapid eye movement sleep
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66.
The effect of gabapentin has been investigated on acute hypoxic stress-induced behavioral alterations and oxidative damage in mice. Mice were subjected to hypoxia for 2 hr. Treatment with gabapentin (50 and 100 mg/kg) significantly increased ambulatory movements, exerted anti-anxiety like effect and reduced oxidative damage in mice subjected to acute hypoxic stress. Treatment with picrotoxin (1.0 mg/kg) per se had no significant effect on behavioral and biochemical parameters of stressed mice. Treatment with muscimol (0.05 mg/kg) per se significantly increased the locomotor activity of stressed mice, exerted significant anti anxiety effect and significantly reduced the oxidative damage. Further, pretreatment with picrotoxin (1.0 mg/kg) significantly blocked whereas pretreatment with muscimol (0.05 mg/kg) significantly potentiated the neuroprotective effect of gabapentin. These results suggest that gabapentin produces its neuroprotective effect in mice subjected to acute hypoxic stress through GABA(A) receptor mechanism. 相似文献
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68.
Richa Kusuma Wati Theerapong Theppakorn Soottawat Benjakul Saroat Rawdkuen 《Process Biochemistry》2009,44(12):1307-1314
Three-phase partitioning (TPP) was used to isolate trypsin inhibitors from navy bean (NB), red kidney bean (RK) and adzuki bean (AZ) from the Royal Project Foundation in Thailand. The method was to mix the crude extract with solid ammonium sulfate (30% saturation, w/v) and tert-butanol (t-butanol) in order to obtain the three phases. The trypsin inhibitor was purified to 5-, 14- and 7-fold with 315%, 441% and 228% recovery for NB, RK and AZ, respectively. The SDS-PAGE showed the major inhibitor band with the molecular weights (MWs) of 132, 118 and 13 kDa for NB, RK and AZ, respectively. The fractions from NB and AZ showed higher pH stability compared to that of the RK, and they had the optimum pH ranges of 7–9. The highest relative inhibitory activity of the fractions of NB and RK were found at 50 °C, and all fractions were quite stable at 90 °C for 60 min of incubation. Increasing the concentration of salt (up to 3%, w/v) did not significantly decrease the inhibitory activity of all fractions (p > 0.05). The trypsin inhibitors from the three legumes were unable to inhibit the autolysis of Pacific whiting and arrowtooth flounder muscles. 相似文献
69.
Verma R Malik C Azmi S Srivastava S Ghosh S Ghosh JK 《The Journal of biological chemistry》2011,286(28):24828-24841
KvAP is a voltage-gated tetrameric K(+) channel with six transmembrane (S1-S6) segments in each monomer from the archaeon Aeropyrum pernix. The objective of the present investigation was to understand the plausible role of the S6 segment, which has been proposed to form the inner lining of the pore, in the membrane assembly and functional properties of KvAP channel. For this purpose, a 22-residue peptide, corresponding to the S6 transmembrane segment of KvAP (amino acids 218-239), and a scrambled peptide (S6-SCR) with rearrangement of only hydrophobic amino acids but without changing its composition were synthesized and characterized structurally and functionally. Although both peptides bound to the negatively charged phosphatidylcholine/phosphatidylglycerol model membrane with comparable affinity, significant differences were observed between these peptides in their localization, self-assembly, and aggregation properties onto this membrane. S6-SCR also exhibited reduced helical structures in SDS micelles and phosphatidylcholine/phosphatidylglycerol lipid vesicles as compared with the S6 peptide. Furthermore, the S6 peptide showed significant membrane-permeabilizing capability as evidenced by the release of calcein from the calcein-entrapped lipid vesicles, whereas S6-SCR showed much weaker efficacy. Interestingly, although the S6 peptide showed ion channel activity in the bilayer lipid membrane, despite having the same amino acid composition, S6-SCR was significantly inactive. The results demonstrated sequence-specific structural and functional properties of the S6 wild type peptide. The selected S6 segment is probably an important structural element that could play an important role in the membrane interaction, membrane assembly, and functional property of the KvAP channel. 相似文献
70.