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111.
Omar A. El-Shihaby Mahmoud E. Younis Zeinab M. El-Bastawisy Mamdouh M. Nemat Alla 《Plant biosystems》2013,147(3):277-290
ABSTRACT Waterlogging decreased carotenoid content of Vigna sinensis and Zea mays, whilst salinity provoked increases in the former and decreases in the latter. Both treatments showed significant reductions in chlorophyll content and in photosynthetic activity (Hill reaction and 14CO2-light fixation). Meanwhile, a significant decrease in the activity of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) was detected in both plants. These reductions could result in losses in the photosynthetic activity with a drop in the net formation of carbohydrates. Waterlogging markedly increased glucose and sucrose in shoots and roots of both species throughout the experimental period but greatly decreased polysaccharides, whilst salinity reduced all carbohydrate fractions. Foliar application of 50 ppm kinetin to treated plants mostly counterbalanced the observed changes in pigments, as well as in the Hill reaction and 14CO2 assimilation. Kinetin also rendered carbohydrate levels in shoots and roots of treated plants and activity of Rubisco closer to control values. The increased levels of glucose and sucrose concomitant with decreased polysaccharides might point to a block in their transport rather than to an over-production. Kinetin counterbalanced the effects of waterlogging or salinity on photosynthetic activity, probably through enhanced production of enzyme and/or delay of senescence. 相似文献
112.
Elaheh Khosrowabadi Zeinab Takalloo Khosro Khajeh 《Preparative biochemistry & biotechnology》2013,43(6):483-489
AbstractEscherichia coli is a common host that is widely used for producing recombinant proteins. However, it is a simple approach for production of heterologous proteins; the major drawbacks in using this organism include incorrect protein folding and formation of disordered aggregated proteins as inclusion bodies. Co-expression of target proteins with certain molecular chaperones is a rational approach for this problem. Aequorin is a calcium-activated photoprotein that is often prone to form insoluble inclusion bodies when overexpressed in E. coli cells resulting in low active yields. Therefore, in the present research, our main aim is to increase the soluble yield of aequorin as a model protein and minimize its inclusion body content in the bacterial cells. We have applied the chaperone-assisted protein folding strategy for enhancing the yield of properly folded protein with the assistance of artemin as an efficient molecular chaperone. The results here indicated that the content of the soluble form of aequorin was increased when it was co-expressed with artemin. Moreover, in the co-expressing cells, the bioluminescence activity was higher than the control sample. We presume that this method might be a potential tool to promote the solubility of other aggregation-prone proteins in bacterial cells. 相似文献
113.
Abdelaziz DH Gavrilin MA Akhter A Caution K Kotrange S Khweek AA Abdulrahman BA Grandhi J Hassan ZA Marsh C Wewers MD Amer AO 《The Journal of biological chemistry》2011,286(5):3203-3208
The ability of Legionella pneumophila to cause pneumonia is determined by its capability to evade the immune system and grow within human monocytes and their derived macrophages. Human monocytes efficiently activate caspase-1 in response to Salmonella but not to L. pneumophila. The molecular mechanism for the lack of inflammasome activation during L. pneumophila infection is unknown. Evaluation of the expression of several inflammasome components in human monocytes during L. pneumophila infection revealed that the expression of the apoptosis-associated speck-like protein (ASC) and the NOD-like receptor NLRC4 are significantly down-regulated in human monocytes. Exogenous expression of ASC maintained the protein level constant during L. pneumophila infection and conveyed caspase-1 activation and restricted the growth of the pathogen. Further depletion of ASC with siRNA was accompanied with improved NF-κB activation and enhanced L. pneumophila growth. Therefore, our data demonstrate that L. pneumophila manipulates ASC levels to evade inflammasome activation and grow in human monocytes. By targeting ASC, L. pneumophila modulates the inflammasome, the apoptosome, and NF-κB pathway simultaneously. 相似文献
114.
Omidvar Z Parivar K Sanee H Amiri-Tehranizadeh Z Baratian A Saberi MR Asoodeh A Chamani J 《Journal of biomolecular structure & dynamics》2011,29(1):181-206
The interaction between cyclophosphamide hydrochloride (CYC) and aspirin (ASA) with human serum albumin (HSA) was studied by various kind of spectroscopic, ζ potential and molecular modeling under physiological conditions. The fluorescence data showed that the binding of drugs to proteins caused strong static fluorescence quenching. The analysis of the fluorescence quenching of HSA in the binary and ternary systems displayed that ASA was affected by the complex formed between CYC and HSA. Moreover, CYC was influenced by the HSA-ASA complex. The inherent binding information, including the quenching mechanism, binding constants, number of binding sites, effective quenching constant, fraction of the initial fluorescence and thermodynamic parameters were measured by the fluorescence quenching technique at various temperatures. In addition, according to the synchronous fluorescence spectra of HSA, the results showed that the fluorescence quenching of HSA originated from the Trp and Tyr residues, and indicated a conformational change of HSA with the addition of the drugs. Far-UV CD spectra of HSA were recorded before and after the addition of ASA and CYC as binary and ternary systems. An increase in intensity of the positive CD peak of HSA was observed in the presence of the drugs. The results were interpreted by excited interactions between the aromatic residues of the HSA binding sites and the drugs bound to them. The distance r between donor and acceptor was obtained by the Forster energy according to fluorescence resonance energy transfer (FRET) and found to be 2.35 nm and 1.78 nm for CYC and ASA, respectively. This confirmed the existence of static quenching for proteins in the presence of CYC and ASA. Furthermore, docking studies pointed at a reduction of the affinity of each of the drug compounds to the protein in the presence of the other in meaningful amounts. Pre-binding of any of the said compounds forced the second to bind in a non-optimized location and orientation. The potential at the electrokinetic shear surface of the protein-drug solution were measured at several concentrations of the drugs by the ζ potential technique, which confirmed experimental and theoretical results. 相似文献
115.
Jan P. Böttcher Oliver Schanz Dirk Wohlleber Zeinab Abdullah Svenja Debey-Pascher Andrea Staratschek-Jox Bastian Höchst Silke Hegenbarth Jessica Grell Andreas Limmer Imke Atreya Markus F. Neurath Dirk H. Busch Edgar Schmitt Peter van Endert Waldemar Kolanus Christian Kurts Joachim L. Schultze Percy A. Knolle 《Cell reports》2013,3(3):779-795
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116.
Zeinab Alsaheli Nicoletta Contaldo Nataša Mehle Marina Dermastia Toufic Elbeaino Assunta Bertaccini 《Journal of Phytopathology》2020,168(1):63-71
In July 2017, a survey was conducted in a fig collection plot at Locorotondo (south of Italy) to investigate the possible presence of phytoplasmas in plants showing yellowing, deformed leaves, short internodes, mottling and mosaic. Samples were collected from symptomatic plants and tested by nested PCR assays using universal and specific primers to amplify the 16S rDNA of these prokaryotes. PCR results detected the presence of phytoplasma sequences in twenty plant samples that resulted clustering two phylogenetically distinct phytoplasmas, i.e., “Candidatus Phytoplasma asteris” and “Candidatus Phytoplasma solani” affiliated to 16SrI and 16SrXII ribosomal groups, respectively. The presence of phytoplasmas belonging to both ribosomal groups was confirmed with group specific quantitative PCR and RFLP assays on 16S ribosomal amplicons. Results of this study indicate for the first time the occurrence of phytoplasmas in fig; however, more work should be carried out to verify their association with the symptoms observed on diseased fig plants. 相似文献
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119.
The silver(I) complex, [Ag(2,9-dimethyl-1,10-phenanthroline)(2)](NO(3)) · H(2)O, has been synthesized and characterized by physicochemical and spectroscopic methods. The binding interactions of this complex with calf thymus DNA (CT-DNA) were investigated using emission, absorption, circular dichroism, viscosity measurements, and gel electrophoresis studies. The calculated binding constant, K(b), obtained from UV-vis absorption studies was 5.3 ± 0.2 × 10(4) M(-1). In fluorimetric studies, the enthalpy and entropy of the reaction between the complex and CT-DNA showed hydrophobic interaction. In addition, in the circular dichroism spectrum, silver(I) complex induces a B → A structural transition of CT-DNA. Gel electrophoresis studies demonstrated that this complex has ability to cleave the supercoiled plasmid DNA. All these results suggest that the complex interacts with CT-DNA via partial intercalative mode of binding. 相似文献
120.
Neshati Z Bahrami AR Eshtiagh-Hosseini H Matin MM Housaindokht MR Tabari T Edalatmanesh MA 《Cytotechnology》2012,64(5):485-495
Recent studies have shown that the use of biomaterials and new biodegradable scaffolds for repair or regeneration of damaged tissues is of vital importance. Scaffolds used in tissue engineering should be biodegradable materials with three-dimensional structures which guide the growth and differentiation of the cells. They also tune physical, chemical and biological properties for efficient supplying of the cells to the selected tissues and have proper porosity along with minimal toxic effects. In this manner, the study of these characteristics is a giant stride towards scaffold design. In this study, Gelatin/Siloxane/Hydroxyapatite (GS-Hyd) scaffold was synthesized and its morphology, in vivo biodegradability, cytotoxic effects and ability for cell adhesion were investigated using mesenchymal stem cells (MSCs). The cells were treated with different volumes of the scaffold suspension for evaluation of its cytotoxic effects. The MSCs were also seeded on scaffolds and cultured for 2 weeks to evaluate the ability of the scaffold in promoting of cell adhesion and growth. To check the biodegradability of the scaffold in vivo, scaffolds were placed in the rat body for 21 days in three different positions of thigh muscle, testicle, and liver and they were analyzed by scanning electron microscopy (SEM) and weight changes. According to the results of the viability of this study, no cytotoxic effects of GS-Hyd scaffold was found on the cells and MSCs could adhere on the scaffold with expanding their elongations and forming colonies. The rate of degradation as assessed by weight loss was significant within each group along with significant differences between different tissues at the same time point. SEM micrographs also indicated the obvious morphological changes on the surface of the particles and diameter of the pores through different stages of implantation. The greatest amount of degradation happened to the scaffold particles implanted into the muscle, followed by testicle and liver, respectively. 相似文献