Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Blasticidin S deaminase (BSD) is a drug inactivating enzyme produced by Aspergillus terreus, which convert blasticidin S (BS) to a non-toxic deamino-hydroxy derivative. The BSD gene was fused to SV 40 transcriptional regulatory elements and the resulting vector was used to transfect FM3A cells. Expression of BSD conferred resistance to BS and allowed efficient isolation of integrative transfectants which have stably maintained the BS-resistance phenotype after repeated transfer to fresh selective medium. The frequency of transfection was comparable to that with neo and about 80-times greater than with bsr, a BS-resistance gene of bacterial origin which can be used to isolate efficiently transfectant HeLa cells. Using BSD as a selectable marker, we obtained several stable cell lines expressing the firefly luciferase gene. Four independent transfectants among the randomly selected 5 BS-resistance colonies exhibited detectable luciferase activity under the control of dexamethasone-inducible promoter in the expression vector. The successful application of BSD strongly suggests the usefulness of BS as a versatile selective reagent for introduction of cloned DNA sequences into mammalian cells.
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PMID:Blasticidin S deaminase gene from Aspergillus terreus (BSD): a new drug resistance gene for transfection of mammalian cells. 794 22

A novel bioluminescent enzymatic cycling assay for ATP and AMP with concomitant use of firefly luciferase and pyruvate orthophosphate dikinase (PPDK) was developed. In this system, AMP and pyrophosphate produced from ATP by firefly luciferase were converted back into ATP by PPDK. This resulted in constant luminescence once the stable phase had been reached. Background luminescence of the reagent was reduced with adenosine phosphate deaminase by degrading ATP and AMP in the reagent. The maximum recycling ratio calculated from the integrated luminescence value was 2.64 cycles/min. The measurable ranges for ATP and AMP were equal and were between 4 x 10(-13) and 4 x 10(-17) mol/assay. The amount of yeast RNA could be estimated in the range of 1 x 10(-8) to 1 x 10(-12) g/assay by estimating the amount of AMP resulting from the degradation of RNA with nuclease P1. Various food samples were subjected to measurement of the amount of ATP + AMP + RNA to provide an index for hygiene monitoring. For beef extract, sensitivity was improved by more than 20 million compared to the previous methods relying only on the amount of ATP as an index.
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PMID:An enzymatic cycling method using pyruvate orthophosphate dikinase and firefly luciferase for the simultaneous determination of ATP and AMP (RNA). 1003 67

We recently developed a novel bioluminescent enzymatic cycling assay for ATP and AMP with the concomitant use of firefly luciferase and pyruvate orthophosphate dikinase (PPDK), where AMP and pyrophosphate produced from ATP by firefly luciferase were converted back into ATP by PPDK. Background luminescence derived from contaminating ATP and AMP in the reagent was reduced using adenosine phosphate deaminase which degrades ATP, ADP, and AMP, resulting in constant and highly amplified bioluminescence with low background luminescence. To detect bacterial cells without cultivation, we applied the above bioluminescent enzymatic cycling reagent to rapid microbe detection system. ATP spots (0.31-5.0 amol/spot) at the level of a single bacterial cell were detected with 5 min signal integration, signifying that integrated luminescence was amplified 43 times in comparison to traditional ATP bioluminescence. Consequently, Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Lactobacillus brevis in beer were detected without cultivation. Significant correlation was observed between the number of signal spots obtained using this novel system and the colony-forming units observed with the conventional colony-counting method (R(2)=0.973).
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PMID:Enumeration of bacterial cell numbers by amplified firefly bioluminescence without cultivation. 1247 34

RNA interference (RNAi) is an extremely powerful and widely used gene silencing approach for reverse functional genomics and molecular therapeutics. In mammals, the conserved poly(ADP-ribose) polymerase 2 (PARP-2)/RNase P bidirectional control promoter simultaneously expresses both the PARP-2 protein and RNase P RNA by RNA polymerase II- and III-dependent mechanisms, respectively. To explore this unique bidirectional control system in RNAi-mediated gene silencing strategy, we have constructed two novel bidirectional expression vectors, pbiHsH1 and pbiMmH1, which contained the PARP-2/RNase P bidirectional control promoters from human and mouse, for simultaneous expression of both the protein-coding genes and short hairpin RNAs. Analyses of the dual transcriptional activities indicated that these two bidirectional expression vectors could not only express enhanced green fluorescent protein as a functional reporter but also simultaneously transcribe shLuc for inhibiting the firefly luciferase expression. In addition, to extend its utility for the establishment of inherited stable clones, we have also reconstructed this bidirectional expression system with the blasticidin S deaminase gene, an effective dominant drug resistance selectable marker, and examined both the selection and inhibition efficiencies in drug resistance and gene expression. Moreover, we have further demonstrated that this bidirectional expression system could efficiently co-regulate the functionally important genes, such as overexpression of tumor suppressor protein p53 and inhibition of anti-apoptotic protein Bcl-2 at the same time. In summary, the bidirectional expression vectors, pbiHsH1 and pbiMmH1, should provide a simple, convenient, and efficient novel tool for manipulating the gene function in mammalian cells.
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PMID:A novel bidirectional expression system for simultaneous expression of both the protein-coding genes and short hairpin RNAs in mammalian cells. 1633 9

Although Agrobacterium-mediated transformation technology is now used widely in rice, many varieties of indica-type rice are still recalcitrant to Agrobacterium-mediated transformation. It was reported recently that T-DNA integration into the rice genome could be the limiting step in this method. Here, we attempted to establish an efficient sequential monitoring system for stable transformation events by visualizing stable transgene expression using a non-destructive and highly sensitive visible marker. Our results demonstrate that click beetle luciferase (ELuc) is an excellent marker allowing the observation of transformed cells in rice callus, exhibiting a sensitivity >30-fold higher than that of firefly luciferase. Since we have previously shown that green fluorescent protein (GFP) is a useful visual marker with which to follow transient and/or stable expression of transgenes in rice, we constructed an enhancer trap vector using both the gfbsd2 (GFP fused to the N-terminus of blasticidin S deaminase) and eluc genes. In this vector, the eluc gene is under the control of the Cauliflower mosaic virus 35S minimal promoter, while the gfbsd2 gene is under the control of the full-length rice elongation factor gene promoter. Observation of transformed callus under a dissecting microscope demonstrated that the level of ELuc luminescence reflected exclusively stable transgene expression, and that both transient and stable expression could be monitored by the level of GFP fluorescence. Moreover, we show that our system enables sequential quantification of transgene expression via differential measurement of ELuc luminescence and GFP fluorescence.
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PMID:Sequential monitoring of transgene expression following Agrobacterium-mediated transformation of rice. 2302 17