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71.
Aman?GayasenEmail author Sunil?Kumar?Dua Amit?Sengupta D?Nagchoudhuri 《Biomedical engineering online》2003,2(1):16
Background
In pregnancy, the uteroplacental vascular system develops de novo locally in utero and a systemic haemodynamic & bio-rheological alteration accompany it. Any abnormality in the non-linear vascular system is believed to trigger the onset of serious morbid conditions like pre-eclampsia and/or intrauterine growth restriction (IUGR). Exact Aetiopathogenesis is unknown. Advancement in the field of non-invasive doppler image analysis and simulation incorporating non-linearities may unfold the complexities associated with the inaccessible uteroplacental vessels. Earlier modeling approaches approximate it as a linear system. 相似文献72.
Studies in newborn humans have demonstrated alteration in the lipid, phospholipid and cholesterol content when compared with age-matched control. Membrane bound (Na+ + K+)ATPase activity is found to be significantly increased in jaundiced neonates. Alteration in membrane permeability characteristics in jaundiced neonates causes severe microenvironmental changes in red blood cell profile. 相似文献
73.
A number of recent studies have presented perspectives on the hydrophobic fluorescence probe tryptophan octyl ester (TOE). This molecule has attracted notable attention as a suitable model for the natural fluorophore tryptophan, in case of membrane proteins. We report here, for the first time, the fluorescence emission behaviour of TOE in reverse micelles of aerosol-OT (AOT) in n-heptane, containing different amounts of water. Relevant studies in representative homogeneous solvent media are also included for comparison. The fluorescence emission parameters (especially emission maximum, relative intensity, and anisotropy) of TOE are found to exhibit significant variation upon changes in the water/surfactant molar ratio (w(0)) of the reverse micelles. Fluorescence decay studies on TOE which we have also performed, indicate biexponential decay kinetics in reverse micelles as well as in homogeneous solvent media. The implications of these findings are examined in relation to the potentialities of TOE as a novel fluorescence probe for membrane proteins present in water restricted environments prevailing at the interfaces of biomembranes (for which reverse micelles serve as ideal model systems). 相似文献
74.
Shakri Banerjee Trina Dutta Sagar Lahiri Shinjinee Sengupta Anushila Gangopadhyay Suresh Kumar Karri Sandeep Chakraborty Debasish Bhattacharya Anil K. Ghosh 《Biochemistry and Biophysics Reports》2015
BackgroundsSpontaneous deamidation and isoaspartate (IsoAsp) formation contributes to aging and reduced longevity in cells. A protein-l-isoaspartate (d-aspartate) O-methyltransferase (PCMT) is responsible for minimizing IsoAsp moieties in most organisms.MethodsPCMT was purified in its native form from yeast Candida utilis. The role of the native PCMT in cell survival and protein repair was investigated by manipulating intracellular PCMT levels with Oxidized Adenosine (AdOx) and Lithium Chloride (LiCl). Proteomic Identification of possible cellular targets was carried out using 2-dimensional gel electrophoresis, followed by on-Blot methylation and mass spectrometric analysis.ResultsThe 25.4 kDa native PCMT from C. utilis was found to have a Km of 3.5 µM for AdoMet and 33.36 µM for IsoAsp containing Delta Sleep Inducing Peptide (DSIP) at pH 7.0. Native PCMT comprises of 232 amino acids which is coded by a 698 bp long nucleotide sequence. Phylogenetic comparison revealed the PCMT to be related more closely with the prokaryotic homologs. Increase in PCMT levels in vivo correlated with increased cell survival under physiological stresses. PCMT expression was seen to be linked with increased intracellular reactive oxygen species (ROS) concentration. Proteomic identification of possible cellular substrates revealed that PCMT interacts with proteins mainly involved with cellular housekeeping. PCMT effected both functional and structural repair in aged proteins in vitro.General significanceIdentification of PCMT in unicellular eukaryotes like C. utilis promises to make investigations into its control machinery easier owing to the familiarity and flexibility of the system. 相似文献
75.
Soluble production and function of vascular endothelial growth factor/basic fibroblast growth factor complex peptide 下载免费PDF全文
Qing Zhang Zhongsong Zhu Lei Pang Yong Tang Qifang Song Jiangfang Huang Jie Deng Ning Deng Qin Yang Aditi M. Sengupta Likuan Xiong 《Biotechnology progress》2015,31(1):194-203
Vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) are important proangiogenic factors in tumor procession. The autocrine and paracrine bFGF and the VEGF in tumor tissue can promote tumor angiogenesis, tumor growth, and metastasis. A VEGF/bFGF Complex Peptide (VBP3) was designed on the basis of epitope peptides from both VEGF and bFGF to elicit in vivo production of anti‐bFGF and anti‐VEGF antibodies. In this study, we reported on the production of recombinant VBP3 using high cell density fermentation. Fed‐batch fermentation for recombinant VBP3 production was conducted, and the production procedure was optimized in a 10‐L fermentor. The fraction of soluble VBP3 protein obtained reached 78% of total recombinant protein output under fed‐batch fermentation. Purified recombinant VBP3 could inhibit tumor cell proliferation in vitro and stimulate C57BL/6 mice to produce high titer anti‐VEGF and anti‐bFGF antibodies in vivo. A melanoma‐grafted mouse model and an immunohistochemistry assay showed that tumor growth and tumor angiogenesis were significantly inhibited in VBP3‐vaccinated mice. These results demonstrated that soluble recombinant VBP3 could be produced by large‐scale fermentation, and the product, with good immunogenicity, elicited production of high‐titer anti‐bFGF and anti‐VEGF antibodies, which could be used as a therapeutic tumor vaccine to inhibit tumor angiogenesis and tumor growth. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 31:194–203, 2015 相似文献
76.
Amyotrophic Lateral Sclerosis is a motor neurodegenerative disease which is characterized by progressive loss of motor neurons followed by paralysis and eventually death. In human, VAMP-associated protein B (VAPB) is the causative gene of the familial form of ALS8. Previous studies have shown that P56S and T46I point mutations of hVAPB are present in this form of ALS. Recently, another mutation, V234I of hVAPB was found in one familial case of ALS. This is the first study where we have shown that V234I-VAPB does not form aggregate like other two mutants of VAPB and localizes differently than the wild type VAPB. It induces Ubiquitin aggregation followed by cell death. We propose that V234I-VAPB exhibits the characteristics of ALS in spite of not having the typical aggregation property of different mutations in various neurodegenerative diseases. 相似文献
77.
Many transmembrane helices contain serine and/or threonine residues whose side chains form intrahelical H-bonds with upstream carbonyl oxygens. Here, we investigated the impact of threonine side-chain/main-chain backbonding on the backbone dynamics of the amyloid precursor protein transmembrane helix. This helix consists of a N-terminal dimerization region and a C-terminal cleavage region, which is processed by γ-secretase to a series of products. Threonine mutations within this transmembrane helix are known to alter the cleavage pattern, which can lead to early-onset Alzheimer’s disease. Circular dichroism spectroscopy and amide exchange experiments of synthetic transmembrane domain peptides reveal that mutating threonine enhances the flexibility of this helix. Molecular dynamics simulations show that the mutations reduce intrahelical amide H-bonding and H-bond lifetimes. In addition, the removal of side-chain/main-chain backbonding distorts the helix, which alters bending and rotation at a diglycine hinge connecting the dimerization and cleavage regions. We propose that the backbone dynamics of the substrate profoundly affects the way by which the substrate is presented to the catalytic site within the enzyme. Changing this conformational flexibility may thus change the pattern of proteolytic processing. 相似文献
78.
79.
Current biological models of epigenetic switches built on chromatin modifications lead to strong constraints on the repertoire of dynamic behaviors for the system. We use the structure of the bifurcation diagram of the underlying dynamical system to explain the existing single cell data in silencing by the SIR system in yeast. 相似文献
80.
Supratim Basu Aryadeep Roychoudhury Progya Paromita Saha Dibyendu N. Sengupta 《Acta Physiologiae Plantarum》2010,32(3):551-563
Extensive investigation into plant response and adaptation to diverse osmotic stresses like high salt/dehydration/low temperature,
involving a broad spectrum of cellular physiological and biochemical changes, is essential to unravel intrinsic mechanism
to mitigate against such stresses. In our previous communications, we conducted biochemical analyses of indica rice varieties,
subjected to exogenous salt/abscisic acid-mediated oxidative stress. The aim of this study was to compare differential biochemical
responses of the salt-sensitive (IR-29), salt-tolerant (Pokkali) and aromatic (Pusa Basmati or PB) rice varieties during polyethylene
glycol (PEG)-induced dehydration stress. The greater susceptibility of IR-29 and PB, to water scarcity, was reflected by the
higher toxic Na+ and putrescine accumulation, considerable decrease in (reduced/oxidized) glutathione, maximal increment in protease activity
and greater downregulation of nitrate reductase activity. On the other hand, Pokkali appeared to suffer lesser damages as
evidenced from much lower endogenous Na+ but higher K+, Ca2+ and Mg2+ accumulation, registering the highest levels of osmolytes like glycinebetaine and higher polyamines (spermidine and spermine)
accounting to improved relative water content, higher (reduced/oxidized) glutathione, maximal induction of the enzyme phenylalanine
ammonia-lyase and practically unhindered nitrate reductase activity, following PEG treatment. The highest induction of sugars
and proline in IR-29 and PB probably played the osmoprotective/antioxidative functions, enabling to a certain extent to heighten
their lipoxygenase inhibition or H2O2 scavenging potential, more than Pokkali, to ward off oxidative damages and sustain survival under critical dehydrated situations.
Thus, the salt-tolerant Pokkali also showed prominent dehydration-tolerance properties, whereas the aromatic rice PB, almost
identical in their biochemical responses to IR-29, showed greater sensitivity to PEG-mediated water deficit. 相似文献