Search results for "Synthetic Biology and Chemistry"

showing 3 items of 3 documents

A multifunctional bioconjugate module for versatile photoaffinity labeling and click chemistry of RNA

2011

A multifunctional reagent based on a coumarin scaffold was developed for derivatization of naive RNA. The alkylating agent N3BC [7-azido-4-(bromomethyl)coumarin], obtained by Pechmann condensation, is selective for uridine. N3BC and its RNA conjugates are pre-fluorophores which permits controlled modular and stepwise RNA derivatization. The success of RNA alkylation by N3BC can be monitored by photolysis of the azido moiety, which generates a coumarin fluorophore that can be excited with UV light of 320 nm. The azidocoumarin-modified RNA can be flexibly employed in structure-function studies. Versatile applications include direct use in photo-crosslinking studies to cognate proteins, as dem…

Alkylating AgentsAzidesFluorophoreUltraviolet RaysPhotoaffinity LabelsPhotoaffinity LabelsBiologyMass Spectrometrychemistry.chemical_compoundCoumarinsGeneticsheterocyclic compoundsDerivatizationFluorescent DyesPhotoaffinity labelingRNANucleosidesCombinatorial chemistrychemistryBiochemistryTransfer RNASynthetic Biology and ChemistryClick chemistryRNAClick ChemistryAzideChromatography LiquidNucleic Acids Research
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Insights into how nucleotide supplements enhance the peroxidase-mimicking DNAzyme activity of the G-quadruplex/hemin system

2012

Since the initial discovery of the catalytic capability of short DNA fragments, this peculiar enzyme-like property (termed DNAzyme) has continued to garner much interest in the scientific community because of the virtually unlimited applications in developing new molecular devices. Alongside the exponential rise in the number of DNAzyme applications in the last past years, the search for convenient ways to improve its overall efficiency has only started to emerge. Credence has been lent to this strategy by the recent demonstration that the quadruplex-based DNAzyme proficiency can be enhanced by ATP supplements. Herein, we have made a further leap along this path, trying first of all to deci…

DeoxyribozymeNanotechnologyBiology010402 general chemistryG-quadruplex01 natural sciencesCatalysischemistry.chemical_compoundAdenosine TriphosphateGeneticsNucleotideCatalytic efficiencyComputingMilieux_MISCELLANEOUSchemistry.chemical_classificationSupplementary data010405 organic chemistryNucleotides[CHIM.CATA]Chemical Sciences/CatalysisDNADNA Catalytic0104 chemical sciences[SDV.BBM.BP]Life Sciences [q-bio]/Biochemistry Molecular Biology/BiophysicsG-QuadruplexesCatalytic cyclechemistryBiochemistryPeroxidasesSynthetic Biology and ChemistryHeminOverall efficiencyHeminNucleic Acids Research
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Expanding the chemical scope of RNA:methyltransferases to site-specific alkynylation of RNA for click labeling.

2010

This work identifies the combination of enzymatic transfer and click labeling as an efficient method for the site-specific tagging of RNA molecules for biophysical studies. A double-activated analog of the ubiquitous co-substrate S-adenosyl-l-methionine was employed to enzymatically transfer a five carbon chain containing a terminal alkynyl moiety onto RNA. The tRNA:methyltransferase Trm1 transferred the extended alkynyl moiety to its natural target, the N2 of guanosine 26 in tRNA(Phe). LC/MS and LC/MS/MS techniques were used to detect and characterize the modified nucleoside as well as its cycloaddition product with a fluorescent azide. The latter resulted from a labeling reaction via Cu(I…

S-AdenosylmethioninetRNA MethyltransferasesBase SequenceStereochemistryMolecular Sequence DataGuanosineRNAFluorescence correlation spectroscopyBiologyTRNA Methyltransferaseschemistry.chemical_compoundRNA Transfer PheSpectrometry FluorescencechemistryBiochemistryAlkynesTransfer RNASynthetic Biology and ChemistryGeneticsClick chemistryMoietyClick ChemistryAzideOrganic ChemicalsFluorescent DyesNucleic acids research
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