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71.
72.
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
73.
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
74.
We have studied DNA sequence variation in and around the genes ICAM1 and TNF, which play functional and correlated roles in inflammatory processes and immune cell responses, in 12 diverse ethnic groups
of India, with a view to investigating the relative roles of demographic history and natural selection in shaping the observed
patterns of variation. The total numbers of single nucleotide polymorphisms (SNPs) detected at the ICAM1 and TNF loci were 29 and 12, respectively. Haplotype and allele frequencies differed significantly across populations. The site frequency
spectra at these loci were significantly different from those expected under neutrality, and showed an excess of intermediate-frequency
variants consistent with balancing selection. However, as expected under balancing selection, there was no significant reduction
of F
ST
values compared to neutral autosomal loci. Mismatch distributions were consistent with population expansion for both loci.
On the other hand, the phylogenetic network among haplotypes for the TNF locus was similar to expectations under population expansion, while that for the ICAM1 was as expected under balancing selection. Nucleotide diversity at the ICAM1 locus was an order of magnitude lower in the promoter region, compared to the introns or exons, but no such difference was
noted for the TNF gene. Thus, we conclude that the pattern of nucleotide variation in these genes has been modulated by both demographic history
and selection. This is not surprising in view of the known allelic associations of several polymorphisms in these genes with
various diseases, both infectious and noninfectious. 相似文献
75.
The aim of the current investigation was to investigate the effect of photoperiod on thyroid activity in soft-shelled turtles (Lissemys punctata punctata). Thirty days exposure of short photoperiod with 2L:22D increased relative weight, follicular epithelial height and peroxidase activity of the thyroid gland; whereas exposure of long photoperiod with 22L:2D for 30 days showed reversed changes to those of the short photoperiod in adult female turtles. These findings indicate that short photoperiod stimulates thyroid activity and long photoperiod inhibits its activity in soft-shelled turtles. It is suggested that photoperiod exerts its action on thyroid activity presumably via gonads and/or pineal-gonadal axis in turtles. 相似文献
76.
Dutta T Sengupta R Sahoo R Sinha Ray S Bhattacharjee A Ghosh S 《Letters in applied microbiology》2007,44(2):206-211
AIMS: The enzymatic hydrolysis of xylan has potential economic and environment-friendly applications. Therefore, attention is focused here on the discovery of new extremophilic xylanase in order to meet the requirements of industry. METHODS AND RESULTS: An extracellular xylanase was purified from the culture filtrate of P. citrinum grown on wheat bran bed in solid substrate fermentation. Single step purification was achieved using hydrophobic interaction chromatography. The purified enzyme showed a single band on SDS-PAGE with an apparent molecular weight of c. 25 kDa and pI of 3.6. Stimulation of the activity by beta mercaptoethanol, dithiotheritol (DTT) and cysteine was observed. Moderately thermostable xylanase showed optimum activity at 50 degrees C at pH 8.5. CONCLUSION: Xylanase purified from P. citrinum was alkaliphilic and moderately thermostable in nature. SIGNIFICANCE AND IMPACT OF THE STUDY: The present work reports for the first time the purification and characterization of a novel endoglucanase free alkaliphilic xylanase from the alkali tolerant fungus Penicillium citrinum. The alkaliphilicity and moderate thermostability of this xylanase may have potential implications in paper and pulp industries. 相似文献
77.
Ray SS Sengupta R Tiso M Haque MM Sahoo R Konas DW Aulak K Regulski M Tully T Stuehr DJ Ghosh S 《Biochemistry》2007,46(42):11865-11873
The nitric oxide synthase of Drosophila melanogaster (dNOS) participates in essential developmental and behavioral aspects of the fruit fly, but little is known about dNOS catalysis and regulation. To address this, we expressed a construct comprising the dNOS reductase domain and its adjacent calmodulin (CaM) binding site (dNOSr) and characterized the protein regarding its catalytic, kinetic, and regulatory properties. The Ca2+ concentration required for CaM binding to dNOSr was between that of the mammalian endothelial and neuronal NOS enzymes. CaM binding caused the cytochrome c reductase activity of dNOSr to increase 4 times and achieve an activity comparable to that of mammalian neuronal NOS. This change was associated with decreased shielding of the FMN cofactor from solvent and an increase in the rate of NADPH-dependent flavin reduction. Flavin reduction in dNOSr was relatively slow following the initial 2-electron reduction, suggesting a slow inter-flavin electron transfer, and no charge-transfer complex was observed between bound NADP+ and reduced FAD during the process. We conclude that dNOSr catalysis and regulation is most similar to the mammalian neuronal NOS reductase domain, although differences exist in their flavin reduction behaviors. The apparent conservation between the fruit fly and mammalian enzymes is consistent with dNOS operating in various signal cascades that involve NO. 相似文献
78.
Lipid rafts, fluid/fluid phase separation, and their relevance to plasma membrane structure and function 总被引:4,自引:0,他引:4
Novel biophysical approaches combined with modeling and new biochemical data have helped to recharge the lipid raft field and have contributed to the generation of a refined model of plasma membrane organization. In this review, we summarize new information in the context of previous literature to provide new insights into the spatial organization and dynamics of lipids and proteins in the plasma membrane of live cells. Recent findings of large-scale separation of liquid-ordered and liquid-disordered phases in plasma membrane vesicles demonstrate this capacity within the complex milieu of plasma membrane proteins and lipids. Roles for membrane heterogeneity and reorganization in immune cell activation are discussed in light of this new information. 相似文献
79.
Soutoglou E Dorn JF Sengupta K Jasin M Nussenzweig A Ried T Danuser G Misteli T 《Nature cell biology》2007,9(6):675-682
Formation of cancerous translocations requires the illegitimate joining of chromosomes containing double-strand breaks (DSBs). It is unknown how broken chromosome ends find their translocation partners within the cell nucleus. Here, we have visualized and quantitatively analysed the dynamics of single DSBs in living mammalian cells. We demonstrate that broken ends are positionally stable and unable to roam the cell nucleus. Immobilization of broken chromosome ends requires the DNA-end binding protein Ku80, but is independent of DNA repair factors, H2AX, the MRN complex and the cohesion complex. DSBs preferentially undergo translocations with neighbouring chromosomes and loss of local positional constraint correlates with elevated genomic instability. These results support a contact-first model in which chromosome translocations predominantly form among spatially proximal DSBs. 相似文献
80.