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11.
Vishal Gupta Chitra Natarajan Kanika Kumar Radha Prasanna 《Journal of applied phycology》2011,23(1):73-81
A cyanobacterial strain (Anabaena laxa RPAN8) exhibiting fungicidal activity and β-1,3 and 1,4 endoglucanase activities was selected for identifying the gene(s)
involved. Functional analyses of the genomic library revealed that four clones (8, 64, 116, and 248) of RPAN8 exhibited fungicidal
activity and induced structural deformities in the cell wall of the growing mycelia of Pythium aphanidermatum. Higher expression of fungicidal and β-1,4 endoglucanase activities, along with low expression of β-1,3 endoglucanase activity,
was recorded in two E. coli clones (8 and 64). Clones 8 and 64 exhibited identical sequences while clones 116 and 248 were also similar. Bioinformatic
analyses were undertaken only for the two non-identical clones 8 and 116 which showed open reading frames (ORFs) of 348 (end 1) and 656 amino acid residues (end 2), respectively. The amino acid sequence analyses revealed that the end 1 encoding endoglucanases belonged to peptidase M20 family while end 2 showed significant similarities with several known genes. The putative promoters and ribosomal binding sites were identified
and amino acid exchanges were observed in both end 1 and 2. The presence of signal peptides of 24 and 20 amino acid residues respectively revealed the secretory nature of these
proteins. 相似文献
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Mahalakshmi Vijayaraghavan Sengupta Prattusha Sumantran V. N. Suganya Natarajan Chatterjee Suvro 《Cell and Tissue Biology》2020,14(6):448-457
Cell and Tissue Biology - Besides disease condition, very few stress stimulants were determined to provoke red blood cell (RBC) adhesion to endothelial cells (EC). However, the possible role of... 相似文献
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Products of inflammation and the activation of nitric oxide synthase have been proposed as a mechanism of oligodendrocyte injury in CNS inflammation. There are currently three well described and known isoforms of NOS. Of these, neuronal NOS (nNOS) was initially discovered in neurons, endothelial NOS (eNOS) in vascular endothelium, while the inducible form of NOS (iNOS) is known to be activated in oligodendrocytes, astrocytes and microglia. We examined the activation of nNOS and the down stream effects of NO production in oligodendrocyte precursor cells (OPC) and MO3.13 cell line following culture with LPS. Our studies show that both MO3.13 cells and OPC are susceptible to the cellular injury resulting from LPS mediated activation and NO production. Activation of the TLR4 receptor with LPS led to decrease in cell viability that was associated with loss of mitochondrial membrane potential and impaired enzymatic activity of complex I and complex IV protein of the respiratory chain. 7-NI, a known inhibitor of nNOS was able to rescue of cells from LPS mediated mitochondrial damage. Loss of mitochondrial function was associated with translocation of cytochrome C and apoptosis inducing factor to the cytosol, setting the stage for apoptosis. Phosphorylation of PI3K and Akt was required for optimal activation of NOS. These studies provide a biochemical basis for nNOS mediated oligodendrocyte injury and suggest similar mechanisms may play a role in diseases characterized by oligodendrocyte loss and demyelination. 相似文献
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S Natarajan E M Gordon E F Sabo J D Godfrey H N Weller J Pluscec M B Rom J Engebrecht D W Cushman J M Deforrest 《Journal of enzyme inhibition》1988,2(2):91-97
The design rationale for a new series of tripeptide derived angiotensin converting enzyme (ACE) inhibitors, which we term "ketomethylureas", is described. Analogs of tripeptide substrates (i.e. N-benzoyl-Phe-Ala-Pro) in which the nitrogen atom of the scissile amide bond and the adjacent asymmetric carbon atom of the penultimate amino acid residue are formally transposed give rise to this novel class of inhibitors. The most potent ketomethylureas inhibit ACE with I50 values in the nM range. 相似文献
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Sawaya SE Rajawat YS Rami TG Szalai G Price RL Sivasubramanian N Mann DL Khoury DS 《American journal of physiology. Heart and circulatory physiology》2007,292(3):H1561-H1567
Atrial arrhythmias, primarily atrial fibrillation, have been independently associated with structural remodeling and with inflammation. We hypothesized that sustained inflammatory signaling by tumor necrosis factor (TNF) would lead to alterations both in underlying atrial myocardial structure and in atrial electrical conduction. We performed ECG recording, intracardiac electrophysiology studies, epicardial mapping, and connexin immunohistochemical analyses on transgenic mice with targeted overexpression of TNF in the cardiac compartment (MHCsTNF) and on wild-type (WT) control mice (age 8-16 wk). Atrial and ventricular conduction abnormalities were always evident on ECG in MHCsTNF mice, including a shortened atrioventricular interval with a wide QRS duration secondary to junctional rhythm. Supraventricular arrhythmias were observed in five of eight MHCsTNF mice, whereas none of the mice demonstrated ventricular arrhythmias. No arrhythmias were observed in WT mice. Left ventricular conduction velocity during apical pacing was similar between the two mouse groups. Connexin40 was significantly downregulated in MHCsTNF mice. In contrast, connexin43 density was not significantly altered in MHCsTNF mice, but rather dispersed away from the intercalated disks. In conclusion, sustained inflammatory signaling contributed to atrial structural remodeling and downregulation of connexin40 that was associated with an increased prevalence of atrial arrhythmias. 相似文献
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Vipra Dhir Anupama Natarajan Maria Stancescu Anindarupa Chunder Neelima Bhargava Mainak Das Lei Zhai Peter Molnar 《Biotechnology progress》2009,25(2):594-603
Integration of living cells with novel microdevices requires the development of innovative technologies for manipulating cells. Chemical surface patterning has been proven as an effective method to control the attachment and growth of diverse cell populations. Patterning polyelectrolyte multilayers through the combination of layer‐by‐layer self‐assembly technique and photolithography offer a simple, versatile, and silicon compatible approach that overcomes chemical surface patterning limitations, such as short‐term stability and low‐protein adsorption resistance. In this study, direct photolithographic patterning of two types of multilayers, PAA (poly acrylic acid)/PAAm (poly acryl amide) and PAA/PAH (poly allyl amine hydrochloride), were developed to pattern mammalian neuronal, skeletal, and cardiac muscle cells. For all studied cell types, PAA/PAAm multilayers behaved as a cytophobic surface, completely preventing cell attachment. In contrast, PAA/PAH multilayers have shown a cell‐selective behavior, promoting the attachment and growth of neuronal cells (embryonic rat hippocampal and NG108‐15 cells) to a greater extent, while providing little attachment for neonatal rat cardiac and skeletal muscle cells (C2C12 cell line). PAA/PAAm multilayer cellular patterns have also shown a remarkable protein adsorption resistance. Protein adsorption protocols commonly used for surface treatment in cell culture did not compromise the cell attachment inhibiting feature of the PAA/PAAm multilayer patterns. The combination of polyelectrolyte multilayer patterns with different adsorbed proteins could expand the applicability of this technology to cell types that require specific proteins either on the surface or in the medium for attachment or differentiation, and could not be patterned using the traditional methods. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009 相似文献