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11.
Santosh Kumar Srivastava V. Rajesh Iyer Tamoghna Ghosh Paramesh Ramulu Lambadi Ranjana Pathania Naveen Kumar Navani 《Nucleic acids research》2016,44(5):2451-2461
Advances in chemical biology have led to selection of synthetic functional nucleic acids for in vivo applications. Discovery of synthetic nucleic acid regulatory elements has been a long-standing goal of chemical biologists. Availability of vast genome level genetic resources has motivated efforts for discovery and understanding of inducible synthetic genetic regulatory elements. Such elements can lead to custom-design of switches and sensors, oscillators, digital logic evaluators and cell–cell communicators. Here, we describe a simple, robust and universally applicable module for discovery of inducible gene regulatory elements. The distinguishing feature is the use of a toxic peptide as a reporter to suppress the background of unwanted bacterial recombinants. Using this strategy, we show that it is possible to isolate genetic elements of non-genomic origin which specifically get activated in the presence of DNA gyrase A inhibitors belonging to fluoroquinolone (FQ) group of chemicals. Further, using a system level genetic resource, we prove that the genetic regulation is exerted through histone-like nucleoid structuring (H-NS) repressor protein. Till date, there are no reports of in vivo selection of non-genomic origin inducible regulatory promoter like elements. Our strategy opens an uncharted route to discover inducible synthetic regulatory elements from biologically-inspired nucleic acid sequences. 相似文献
12.
V. Katoch Susheel Sharma S. Pathania D. K. Banayal S. K. Sharma R. Rathour 《Molecular breeding : new strategies in plant improvement》2010,25(2):229-237
Powdery mildew caused by Erysiphe pisi D.C. is one of the most serious diseases that inflict heavy losses to pea crop world-wide. Identification of resistance sources
and their incorporation into susceptible cultivars remains the most effective method of controlling the disease. The present
study investigated the resistance phenotype, inheritance, and genomic location of gene(s) controlling resistance to powdery
mildew in pea genotype ‘JI2480’. The powdery mildew resistance in ‘JI2480’ appeared to be a spatial phenomenon showing expression
only in leaf tissues. By segregation analysis of an F2 progeny of cross ‘Lincoln/JI2480’, the leaf resistance of ‘JI2480’ was shown to be controlled by a single recessive gene,
presumed to be er2. Through linkage analysis of 111 resistant F2 progeny plants with simple sequence repeat (SSR) and random amplified polymorphic DNA (RAPD) markers adopted from the published
linkage maps, the er2 gene was localized on pea linkage group III (LGIII). The assignment of er2 to LGIII, a position different from that reported for er1, has resolved the long standing controversy in the literature regarding the existence and genomic location of er2 gene. A RAPD marker OPX-17_1400, exhibiting cis phase linkage (2.6 cM) to er2 was successfully converted to a sequence characterized amplified region (SCAR) marker, ScX17_1400. The SCAR marker ScX17_1400
will ensure speedy and precise introgression of er2 into susceptible cultivars by permitting selection of er2 heterozygotes amongst BC
n
F1s without progeny tests and resistance screening. 相似文献
13.
Melissa Millard Divya Pathania Yumna Shabaik Laleh Taheri Jinxia Deng Nouri Neamati 《PloS one》2010,5(10)
Background
Recently, there has been a surge of interest in developing compounds selectively targeting mitochondria for the treatment of neoplasms. The critical role of mitochondria in cellular metabolism and respiration supports this therapeutic rationale. Dysfunction in the processes of energy production and metabolism contributes to attenuation of response to pro-apoptotic stimuli and increased ROS production both of which are implicated in the initiation and progression of most human cancers.Methodology/Principal Findings
A high-throughput MTT-based screen of over 10,000 drug-like small molecules for anti-proliferative activity identified the phosphonium salts TP187, 197 and 421 as having IC50 concentrations in the submicromolar range. TP treatment induced cell cycle arrest independent of p53 status, as determined by analysis of DNA content in propidium iodide stained cells. In a mouse model of human breast cancer, TP-treated mice showed significantly decreased tumor growth compared to vehicle or paclitaxel treated mice. No toxicities or organ damage were observed following TP treatment. Immunohistochemical staining of tissue sections from TP187-treated tumors demonstrated a decrease in cellular proliferation and increased caspase-3 cleavage. The fluorescent properties of analog TP421 were exploited to assess subcellular uptake of TP compounds, demonstrating mitochondrial localization. Following mitochondrial uptake cells exhibited decreased oxygen consumption and concomittant increase in mitochondrial superoxide production. Proteomics analysis of results from a 600 target antibody microarray demonstrated that TP compounds significantly affected signaling pathways relevant to growth and proliferation.Conclusions/Significance
Through our continued interest in designing compounds targeting cancer-cell metabolism, the Warburg effect, and mitochondria we recently discovered a series of novel, small-molecule compounds containing a triphenylphosphine moiety that show remarkable activity in a panel of cancer cell lines as well as in a mouse model of human breast cancer. The mechanism of action includes mitochondrial localization causing decreased oxygen consumption, increased superoxide production and attenuated growth factor signaling. 相似文献14.
Rajnikant Sharma Sankalp Arya Supriya Deepak Patil Atin Sharma Pradeep Kumar Jain Naveen Kumar Navani Ranjana Pathania 《PloS one》2014,9(4)
Small RNA (sRNA) molecules are non-coding RNAs that have been implicated in regulation of various cellular processes in living systems, allowing them to adapt to changing environmental conditions. Till date, sRNAs have not been reported in Acinetobacter baumannii (A. baumannii), which has emerged as a significant multiple drug resistant nosocomial pathogen. In the present study, a combination of bioinformatic and experimental approach was used for identification of novel sRNAs. A total of 31 putative sRNAs were predicted by a combination of two algorithms, sRNAPredict and QRNA. Initially 10 sRNAs were chosen on the basis of lower E- value and three sRNAs (designated as AbsR11, 25 and 28) showed positive signal on Northern blot. These sRNAs are novel in nature as they do not have homologous sequences in other bacterial species. Expression of the three sRNAs was examined in various phases of bacterial growth. Further, the effect of various stress conditions on sRNA gene expression was determined. A detailed investigation revealed differential expression profile of AbsR25 in presence of varying amounts of ethidium bromide (EtBr), suggesting that its expression is influenced by environmental or internal signals such as stress response. A decrease in expression of AbsR25 and concomitant increase in the expression of bioinformatically predicted targets in presence of high EtBr was reverberated by the decrease in target gene expression when AbsR25 was overexpressed. This hints at the negative regulation of target genes by AbsR25. Interestingly, the putative targets include transporter genes and the degree of variation in expression of one of them (A1S_1331) suggests that AbsR25 is involved in regulation of a transporter. This study provides a perspective for future studies of sRNAs and their possible involvement in regulation of antibiotic resistance in bacteria specifically in cryptic A. baumannii. 相似文献
15.
Praveen Rishi Neha Rani Bhagat Reena Thakur Preeti Pathania 《Indian journal of microbiology》2018,58(2):239-243
Bacterial persisters (defined as dormant, non-dividing cells with globally reduced metabolism) are the major cause of recurrent infections. As they neither grow nor die in presence of antibiotics, it is difficult to eradicate these cells using antibiotics, even at higher concentrations. Reports of metabolites (which help in waking up of these inactive cells) enabled eradication of bacterial persistence by aminoglycosides, suggest the new potential strategy to improve antibiotic therapy. Here we propose, mannitol enabled elimination of Salmonella persister cells by the nisin–antibiotic combination. For this, persister cells were developed and characterized for their typical properties such as non-replicative state and metabolic dormancy. Different carbon sources viz. glucose, glycerol, and mannitol were used, each as an adjunct to ampicillin for the eradication of persister cells. The maximum (but not complete) killing was observed with mannitol–ampicillin, out of all the combinations used. However, significant elimination (about 78%) could be observed, when nisin (an antimicrobial peptide) was used with ampicillin in presence of mannitol, which might have mediated the transfer of antibiotic–nisin combination at the same time when the cells tried to grab the carbon molecule. Further, the effectiveness of the trio was confirmed by flow cytometry. Overall, our findings highlight the potential of this trio-combination for developing it as an option for tackling Salmonella persister cells. 相似文献
16.
17.
Hari C. Sharma Abdul Rashid War Mandeep Pathania Suraj P Sharma S. MD. Akbar Rajendra S Munghate 《Arthropod-Plant Interactions》2016,10(2):171-181
Global atmospheric concentration of CO2 is likely to increase from 350 to 750 ppm over the next 100 years. The present studies were undertaken to understand the effects of elevated CO2 on enzymatic activity and secondary metabolites in chickpea in relation to expression of resistance to pod borer, Helicoverpa armigera. Fifteen-day-old chickpea plants [ICCL 86111—resistant and JG 11—commercial cultivar] grown in the greenhouse were transferred to open-top chambers (OTC) and kept under 350, 550 and 750 ppm of CO2. Twenty neonates of H. armigera were released on each plant at 7 days after shifting the pots to the OTCs. Un-infested plants were maintained as controls. After 7 days of infestation, the activities of defensive enzymes [peroxidase (POD), polyphenol oxidase (PPO), phenylalanine ammonia lyase (PAL) and tyrosine ammonia lyase (TAL)] and amounts of total phenols and condensed tannins increased with an increase in CO2 concentration in chickpea. The nitrogen balance index was greater in plants kept at 350 ppm CO2 than in plants kept under ambient conditions. The H. armigera-infested plants had higher H2O2 content; amounts of oxalic and malic acids were greater at 750 ppm CO2 than at 350 ppm CO2. Plant damage was greater at 350 ppm than at 550 and 750 ppm CO2. This information will be useful for understanding effects of increased levels of CO2 on expression of resistance to insect pests to develop strategies to mitigate the effects of climate change. 相似文献
18.
Nitric oxide (NO), generated in large amounts within the macrophages, controls and restricts the growth of internalized human pathogen, Mycobacterium tuberculosis H37Rv. The molecular mechanism by which tubercle bacilli survive within macrophages is currently of intense interest. In this work, we have demonstrated that dimeric haemoglobin, HbN, from M. tuberculosis exhibits distinct nitric oxide dioxygenase (NOD) activity and protects growth and cellular respiration of heterologous hosts, Escherichia coli and Mycobacterium smegmatis, from the toxic effect of exogenous NO and the NO-releasing compounds. A flavohaemoglobin (HMP)-deficient mutant of E. coli, unable to metabolize NO, acquired an oxygen-dependent NO consumption activity in the presence of HbN. On the basis of cellular haem content, the specific NOD activity of HbN was nearly 35-fold higher than the single-domain Vitreoscilla haemoglobin (VHb) but was sevenfold lower than the two-domain flavohaemoglobin. HbN-dependent NO consumption was sustained with repeated addition of NO, demonstrating that HbN is catalytically reduced within E. coli. Aerobic growth and respiration of a flavohaemoglobin (HMP) mutant of E. coli was inhibited in the presence of exogenous NO but remained insensitive to NO inhibition when these cells produced HbN, VHb or flavohaemoglobin. M. smegmatis, carrying a native HbN very similar to M. tuberculosis HbN, exhibited a 7.5-fold increase in NO uptake when exposed to gaseous NO, suggesting NO-induced NOD activity in these cells. In addition, expression of plasmid-encoded HbN of M. tuberculosis in M. smegmatis resulted in 100-fold higher NO consumption activity than the isogenic control cells. These results provide strong experimental evidence in support of NO scavenging and detoxification function for the M. tuberculosis HbN. The catalytic NO scavenging by HbN may be highly advantageous for the survival of tubercle bacilli during infection and pathogenesis. 相似文献
19.
Ectopic expression of alkaline phosphatase in proximal tubular brush border membrane of human renal cell carcinoma 总被引:2,自引:0,他引:2
Prasad R Lambe S Kaler P Pathania S Kumar S Attri S Singh SK 《Biochimica et biophysica acta》2005,1741(3):240-245
The present study was conducted to find out any alteration in the expression and activity of alkaline phosphatase in the brush border membrane (BBM) from renal cell carcinoma (RCC) in comparison to normal renal BBM. The specific activity of alkaline phosphatase was drastically reduced in homogenate as well as BBM from RCC kidney when compared to ALP activity in BBM of normal kidney. Kinetic studies revealed that diminished activity of alkaline phosphatase in BBM isolated from RCC was fraternized with decrease in maximal velocity (V(max)) and increase in affinity constant (K(m)) of the enzyme. SDS-PAGE studies showed that the BBM proteins having molecular weights ranging from 95 to 170 kDa were poorly expressed in RCC BBM in relative to normal kidney BBM. Incubation of SDS-PAGE gel with BCIP/NBT dye clearly showed that the expression of ALP in tumor renal BBM was markedly reduced as compared to normal kidney. Further, Western blot analysis using anti-alkaline phosphatase antibody also confirmed the reduced expression of ALP in tumor renal BBM. Lipid composition in reference to phospholipids, glycolipids and cholesterol in tumor renal BBM was altered to that of normal renal BBM, indicating alteration in membrane fluidity of tumor renal BBM. 相似文献
20.
Nitric oxide is thought to be an important modulator of various functions in normal and inflamed airways. In the present study, we evaluated the effects of high vitamin E (250 mg and 1250 mg alpha-tocopheryl acetate (TA)/kg diet/10 days) on nitric oxide (NO(.)) release by alveolar macrophages (AMs) in response to lipopolysaccharide (LPS), interleukin-1beta (IL-1beta) and tumor necrosis factor (TNF-alpha). LPS and IL-1beta treatment (1-10 microg/ml) enhanced NO(.) release in AMs from control animals fed on 50 mg vitamin E/kg diet in a concentration dependent manner. However, this enhancement of NO(.) was attenuated in the AMs of animals fed with 250 mg or 1250 mg vitamin E/kg diet. TNF-alpha had no effect in eliciting the release of NO(.) in AMs obtained either from control or from hyper vitamin E fed animals. Further, LPS (1-10 microg/ml) enhanced the inducible nitric oxide synthase (iNOS) activity of AMs of control group and TA-fed animals almost to equal extent. Similarly, LPS-induced formation of N-nitrosamine (N-nitroso-L-[(14)C]-proline) in AMs of control and TA-supplemented animals were not different statistically. On the other hand, in vitro addition of vitamin E (200 microM) in AMs of control animals, when triggered with 10 microg LPS/ml, caused a significant decrease in N-nitroso-L-[(14)C]-proline formation. It seems that high doses of TA in diet may play a role in reducing the lipopolysaccharide and proinflammatory cytokines-induced NO(.)-mediated damage by AMs. 相似文献