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131.
132.
Hayworth JL Mazzuca DM Maleki Vareki S Welch I McCormick JK Haeryfar SM 《Immunology and cell biology》2012,90(7):699-709
Invariant NKT (iNKT) cells are infrequent but important immunomodulatory lymphocytes that exhibit CD1d-restricted reactivity with glycolipid Ags. iNKT cells express a unique T-cell receptor (TCR) composed of an invariant α-chain, paired with a limited range of β-chains. Superantigens (SAgs) are microbial toxins defined by their ability to activate conventional T cells in a TCR β-chain variable domain (Vβ)-specific manner. However, whether iNKT cells are directly activated by bacterial SAgs remains an open question. Herein, we explored the responsiveness of mouse and human iNKT cells to a panel of staphylococcal and streptococcal SAgs and examined the contribution of major histocompatibility complex (MHC) class II and CD1d to these responses. Bacterial SAgs that target mouse Vβ8, such as staphylococcal enterotoxin B (SEB), were able to activate mouse hybridoma and primary hepatic iNKT cells in the presence of mouse APCs expressing human leukocyte antigen (HLA)-DR4. iNKT cell-mediated cytokine secretion in SEB-challenged HLA-DR4-transgenic mice was CD1d-independent and accompanied by a high interferon-γ:interleukin-4 ratio consistent with an in vivo Th1 bias. Furthermore, iNKT cells from SEB-injected HLA-DR4-transgenic mice, and iNKT cells from SEB-treated human PBMCs, showed early activation by intracellular cytokine staining and CD69 expression. Unlike iNKT cell stimulation by α-galactosylceramide, stimulation by SEB did not induce TCR downregulation of either mouse or human iNKT cells. We conclude that Vβ8-targeting bacterial SAgs can activate iNKT cells by utilizing a novel pathway that requires MHC class II interactions, but not CD1d. Therefore, iNKT cells fulfill important effector functions in response to bacterial SAgs and may provide attractive targets in the management of SAg-induced illnesses. 相似文献
133.
Alireza Hassanshahi Mohammadhossein Hassanshahi Samira Khabbazi Zahra Hosseini-Khah Yaser Peymanfar Saman Ghalamkari Yu-Wen Su Cory J. Xian 《Journal of cellular physiology》2019,234(6):7903-7914
Wound healing is a complex but a fine-tuned biological process in which human skin has the ability to regenerate itself following damage. However, in particular conditions such as deep burn or diabetes the process of wound healing is compromised. Despite investigations on the potency of a wide variety of stem cells for wound healing, adipose-derived stem cells (ASCs) seem to possess the least limitations for clinical applications, and literature showed that ASCs can improve the process of wound healing very likely by promoting angiogenesis and/or vascularisation, modulating immune response, and inducing epithelialization in the wound. In the present review, advantages and disadvantages of various stem cells which can be used for promoting wound healing are discussed. In addition, potential mechanisms of action by which ASCs may accelerate wound healing are summarised. Finally, clinical studies applying ASCs for wound healing and the associated limitations are reviewed. 相似文献
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135.
Structural and functional study of a simple,rapid, and label‐free DNAzyme‐based DNA biosensor for optimization activity
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Peroxidase‐mimicking DNAzyme has a potential to self‐assemble into a G‐quadruplex and shows peroxidase activity. In comparison to proteins, peroxidase‐mimicking DNAzyme is less expensive and more stable. Herein, it is used in fabricating non‐labeling biosensors. This paper investigates the structural and functional properties of a DNA biosensor based on split DNAzyme with a detection limit in nM range (9.48 nM). Two halves of DNAzyme were linked by a complementary sequence of DNA target. Hybridization of the DNA target pulled two DNAzyme halves apart and peroxidase activity decreased. This study can be divided into 3 stages. First, the characteristics of DNAzyme were studied by Circular Dichroism technique and UV–Vis spectroscopy to find out DNAzyme's optimum activity. It is worth to note that some divalent cations were used to form G‐quadruplex, in addition to common monovalent cations. Furthermore, the hemin incubation was also optimized. Secondly, the structural and functional properties of two types of split DNAzyme were compared with DNAzyme. Thirdly, the hybridization of DNA target was monitored. The results revealed that peroxidase activities of split types decreased by half without any specific conformational changes. Interestingly, the catalytic activities of split DNAzymes could be promoted by adding Mg2+. Besides, it was demonstrated that the structure, peroxidation reaction, and DNA target hybridization of 2:2 and 3:1 split modes were almost alike. It was also illustrated that magnesium promoted the possibility of hybridization. 相似文献
136.
Tahmeena Khan Shalini Dixit Rumana Ahmad Saman Raza Iqbal Azad Seema Joshi Abdul Rahman Khan 《Journal of chemical biology》2017,10(3):91-104
2-Butanone thiosemicarbazone ligand was prepared by condensation reaction between thiosemicarbazide and butanone. The ligand was characterized by 1H NMR, 13C NMR, FT-IR, mass spectrometry and UV spectroscopic studies. Docking studies were performed to study inhibitory action against topoisomerase II (Topo II) and ribonucleoside diphosphate reductase (RR) enzymes. Inhibition constants (K i ) of the ligand were 437.87 and 327.4 μM for the two enzymes, respectively. The ligand was tested for its potential anticancer activity against two cancer cell lines MDA-MB-231 and A549 using MTT assay and was found to exhibit good activity at higher doses with an IC50 = 80 μM against human breast cancer cell line MDA-MB-231. On the other hand, no significant activity was obtained against the lung carcinoma cell line A549. Antibacterial activity of the ligand was tested against Staphylococcus aureus and E. coli using the disc diffusion method. Ligand did not exhibit any significant antibacterial activity. Four complexes of Co(III), Fe(II), Cu(II), and Zn(II) were prepared with the ligand and characterized by various spectroscopic studies. Low molar conductance values were obtained for all complexes displaying non-electrolyte nature except in Co(III) complex. As expected, complexation with metal ions significantly increased the cytotoxicity of the ligand against the tested cell lines viz. IC50 values of <20 μM for Co, Fe, and Zn complexes and approx. 80 μM against MDA cells versus IC50 value of <20 μM for Co and Cu complexes and that of 30 and 50 μM for Fe and Zn complexes, respectively, against A549 cells. The Cu complex was found to be active against E. coli and S. aureus with MIC values in the range of 6–10 mg/mL. Other than Cu, only Co complex was found to possess antibacterial activity with MIC values of 5–10 mg/mL when tested against S. aureus. Bioactivity score and Prediction of Activity Spectra for Substances (PASS) analysis also depicted the drug-like nature of ligand and complexes. 相似文献
137.
138.
Background
Genomes of lower organisms have been observed with a large amount of horizontal gene transfers, which cause difficulties in their evolutionary study. Bacteriophage genomes are a typical example. One recent approach that addresses this problem is the unsupervised clustering of genomes based on gene order and genome position, which helps to reveal species relationships that may not be apparent from traditional phylogenetic methods. 相似文献139.
Protein motif extraction with neuro-fuzzy optimization 总被引:2,自引:0,他引:2
MOTIVATION: It is attempted to improve the speed and flexibility of protein motif identification. The proposed algorithm is able to extract both rigid and flexible protein motifs. RESULTS: In this work, we present a new algorithm for extracting the consensus pattern, or motif, from a group of related protein sequences. This algorithm involves a statistical method to find short patterns with high frequency and then neural network training to optimize the final classification accuracies. Fuzzy logic is used to increase the flexibility of protein motifs. C2H2 Zinc Finger Protein and epidermal growth factor protein sequences are used to demonstrate the capability of the proposed algorithm in finding motifs. AVAILABILITY: This program is freely available for academic use by request. 相似文献
140.
Yaghoubi H Khajeh K Hosseinkhani S Ranjbar B Naderi-Manesh H 《International journal of biological macromolecules》2007,41(5):624-630
A facile method for the formation of covalent bonds between protein molecules is zero-length cross-linking. This method enables the formation of cross-links without use of any chemical reagents. Here, the cross-linking is performed for lysozyme, peroxidase (a glycoprotein) and between lysozyme–peroxidase by the method of Simons et al. [B.L. Simons, M.C. King, T. Cyr, M.A. Hefford, H. Kaplan, Covalent cross-linking of protein without chemical reagents, Protein Sci. 2002, 11, 1558–1564]. Approximately one-third of the total lysozyme becomes cross-linked and the dimer form was the major product for both enzymes. This modification induced some changes in the kinetic properties of the dimer peroxidase, as evident by two-fold increasing of Vmax compared to the monomer but the enzymatic activity of cross-linked lysozyme dimer was the same as monomer. The activity of lysozyme dimer remained constant up to 10 min at 80 °C, while peroxidase activity of both monomer and dimer began to decrease after heating. The structural changes of the enzymes were investigated by circular dichroism and intrinsic fluorescence techniques. Near UV result showed lysozyme possess a compact structure in the dimer form but disruption of tertiary structure of peroxidase dimer was observed. Also conformational changes were detected and discussed by intrinsic fluorescence experiments. Effect of several metals in the formation of lysozyme dimer showed that Co2+ is the most effective one but its effect was marginal. At the end formation of heterogeneous dimer, peroxidase–lysozyme, was achieved using this method. 相似文献