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111.
Sengupta Sonali Mukherjee Sritama Goswami Lily Sangma Shiny Mukherjee Abhishek Mukherjee Rajeswari Roy Niladri Basak Papri Majumder Arun Lahiri 《Journal of plant biochemistry and biotechnology.》2012,21(1):15-23
Emergence of high-throughput sequencing tools and omics technologies paved the way for systems biology in last decade. While we have started to look at the biology of the plant in a more unified manner, the integration of such knowledge in agricultural biotechnology has become an arena of potential interest. The network of several central molecules operating in various life and developmental processes are now more adequately known, and fine tuning of such molecule pools, if connected to stress response, can result in enhanced stress tolerance of plants.This review interprets the potential of manipulation of myo-inositol and its derivatives in generation of transgenic crop plants. Being a molecule of central importance in plant life, inositol is connected to numerous life processes. The exploration of such pathways indicates that inositol itself and many of its derivatives can impart abiotic stress tolerance (against salinity, dehydration, chilling or oxidative stress) to plants when overexpressed. We propose that engineering inositol metabolic network is a potential approach towards stress-tolerant transgenic crop plant generation and thus its exploitation in agricultural biotechnology is the call of time. 相似文献
112.
Inositol monophosphatase (IMPase) family of proteins are Mg(2+) activated Li(+) inhibited class of ubiquitous enzymes with promiscuous substrate specificity. Herein, the molecular basis of IMPase substrate specificity is delineated by comparative crystal structural analysis of a Staphylococcal dual specific IMPase/NADP(H) phosphatase (SaIMPase - I) with other IMPases of different substrate compatibility, empowered by in silico docking and Escherichia coli SuhB mutagenesis analysis. Unlike its eubacterial and eukaryotic NADP(H) non-hydrolyzing counterparts, the composite structure of SaIMPase - I active site pocket exhibits high structural resemblance with archaeal NADP(H) hydrolyzing dual specific IMPase/FBPase. The large and shallow SaIMPase - I active site cleft efficiently accommodate large incoming substrates like NADP(H), and therefore, justifies the eminent NADP(H) phosphatase activity of SaIMPase - I. Compared to other NADP(H) non-hydrolyzing IMPases, the profound difference in active site topology as well as the unique NADP(H) recognition capability of SaIMPase - I stems from the differential length and orientation of a distant helix α4 (in human and bovine α5) and its preceding loop. We identified the length of α4 and its preceding loop as the most crucial factor that regulates IMPase substrate specificity by employing a size exclusion mechanism. Hence, in SaIMPase - I, the substrate promiscuity is a gain of function by trimming the length of α4 and its preceding loop, compared to other NADP(H) non-hydrolyzing IMPases. This study thus provides a biochemical - structural framework revealing the length and orientation of α4 and its preceding loop as the predisposing factor for the determination of IMPase substrate specificity. 相似文献
113.
Crystal structure of Staphylococcal β‐ketoacyl‐ACP reductase 1 (SaFabG1) complexed with NADPH is determined at 2.5 Å resolution. The enzyme is essential in FAS‐II pathway and utilizes NADPH to reduce β‐ketoacyl‐ACP to (S)‐β‐hydroxyacyl‐ACP. Unlike the tetrameric FabGs, dimeric SaFabG1 shows positive homotropic cooperativity towards NADPH. Analysis of FabG:NADPH binary crystal structure endorses that NADPH interacts directly with the helices α4 and α5 those are present on a dimerization interface. A steady shift in tryptophan (of α4 helix) emission peak upon steady increment of NADPH concentration reveals that the dimeric interface is formed by α4‐α4′ and α5‐α5′ helices. This dimeric interface imparts positive homotropic cooperativity towards NADPH. PEG, a substrate mimicking molecule is also found near the active site of the enzyme. Proteins 2012; © 2011 Wiley Periodicals, Inc. 相似文献
114.
Goldberger JJ Le FK Lahiri M Kannankeril PJ Ng J Kadish AH 《American journal of physiology. Heart and circulatory physiology》2006,290(6):H2446-H2452
The objective of this study was to evaluate whether heart rate variability (HRV) can be used as an index of parasympathetic reactivation after exercise. Heart rate recovery after exercise has recently been shown to have prognostic significance and has been postulated to be related to abnormal recovery of parasympathetic tone. Ten normal subjects [5 men and 5 women; age 33 +/- 5 yr (mean +/- SE)] exercised to their maximum capacity, and 12 subjects (10 men and 2 women; age 61 +/- 10 yr) with coronary artery disease exercised for 16 min on two separate occasions, once in the absence of atropine and once with atropine (0.04 mg/kg) administered during exercise. The root mean square residual (RMS), which measures the deviation of the R-R intervals from a straight line, as well as the standard deviation (SD) and the root mean square successive difference of the R-R intervals (MSSD), were measured on successive 15-, 30-, and 60-s segments of a 5-min ECG obtained immediately after exercise. In recovery, the R-R interval was shorter with atropine (P < 0.0001). Without atropine, HRV, as measured by the MSSD and RMS, increased early in recovery from 4.1 +/- 0.4 and 3.7 +/- 0.4 ms in the first 15 s to 7.2 +/- 1.0 and 7.4 +/- 0.9 ms after 1 min, respectively (P < 0.0001). RMS (range 1.7-2.1 ms) and MSSD were less with atropine (P < 0.0001). RMS remained flat throughout recovery, whereas MSSD showed some decline over time from 3.0 to 2.2 ms (P < 0.002). RMS and MSSD were both directly related (r(2) = 0.47 and 0.56, respectively; P < 0.0001) to parasympathetic effect, defined as the difference in R-R interval without and with atropine. In conclusion, RMS and MSSD are parameters of HRV that can be used in the postexercise recovery period as indexes of parasympathetic reactivation after exercise. These tools may improve our understanding of parasympathetic reactivation after exercise and the prognostic significance of heart rate recovery. 相似文献
115.
116.
Nasser H. Zawia Debomoy K. Lahiri Fernando Cardozo-Pelaez 《Free radical biology & medicine》2009,46(9):1241-1249
Alzheimer disease (AD) is a progressive neurodegenerative disorder whose clinical manifestations appear in old age. The sporadic nature of 90% of AD cases, the differential susceptibility to and course of the illness, as well as the late age onset of the disease suggest that epigenetic and environmental components play a role in the etiology of late-onset AD. Animal exposure studies demonstrated that AD may begin early in life and may involve an interplay between the environment, epigenetics, and oxidative stress. Early life exposure of rodents and primates to the xenobiotic metal lead (Pb) enhanced the expression of genes associated with AD, repressed the expression of others, and increased the burden of oxidative DNA damage in the aged brain. Epigenetic mechanisms that control gene expression and promote the accumulation of oxidative DNA damage are mediated through alterations in the methylation or oxidation of CpG dinucleotides. We found that environmental influences occurring during brain development inhibit DNA-methyltransferases, thus hypomethylating promoters of genes associated with AD such as the β-amyloid precursor protein (APP). This early life imprint was sustained and triggered later in life to increase the levels of APP and amyloid-β (Aβ). Increased Aβ levels promoted the production of reactive oxygen species, which damage DNA and accelerate neurodegenerative events. Whereas AD-associated genes were overexpressed late in life, others were repressed, suggesting that these early life perturbations result in hypomethylation as well as hypermethylation of genes. The hypermethylated genes are rendered susceptible to Aβ-enhanced oxidative DNA damage because methylcytosines restrict repair of adjacent hydroxyguanosines. Although the conditions leading to early life hypo- or hypermethylation of specific genes are not known, these changes can have an impact on gene expression and imprint susceptibility to oxidative DNA damage in the aged brain. 相似文献
117.
118.
Rita Ghosh Sudipta Bhowmik Angshuman Bagchi Dipankar Das Somnath Ghosh 《European biophysics journal : EBJ》2010,39(8):1243-1249
Acridines and their derivatives are well-known probes for nucleic acids as well as being relevant in the field of drug development
to establish new chemotherapeutic agents. We have shown from molecular modelling studies that 9-phenyl acridine and some of
its derivatives can act as inhibitors of topoisomerase I and thus have potential to act as anticancer agents. Rational design
of new compounds for therapeutics requires knowledge about their structural stability and interactions with various cellular
macromolecules. In this regard it is important to know how these molecules would interact with DNA. Here we report the interaction
of 9-phenyl acridine (ACPH) with calf thymus DNA (CT-DNA) based on various biophysical and molecular modelling studies. Spectrophotometric
studies indicated that ACPH binds to CT-DNA. DNA melting studies revealed that binding of ACPH to CT-DNA resulted in a small
increase in melting temperature, which is unlikely in case of classical intercalator; rather, it indicates external binding.
Viscosity measurements show that ACPH exhibits groove binding. Competitive binding of ACPH to CT-DNA pre-bound to ethidium
bromide (EB) showed slow quenching. Measurement of the binding constant of ACPH by fluorescent intercalator displacement (FID)
assay corroborated the notion that there was groove binding. Molecular modelling studies also supported this finding. Results
indicate that binding of ACPH is through partial intercalation in the minor groove of DNA. 相似文献
119.