Complementary assays are required to comprehensively map complex biological entities such as genomes, proteomes and interactome networks. However, how various assays can be optimally combined to approach completeness while maintaining high precision often remains unclear. Here, we propose a framework for binary protein-protein interaction (PPI) mapping based on optimally combining assays and/or assay versions to maximize detection of true positive interactions, while avoiding detection of random protein pairs. We have engineered a novel NanoLuc two-hybrid (N2H) system that integrates 12 different versions, differing by protein expression systems and tagging configurations. The resulting union of N2H versions recovers as many PPIs as 10 distinct assays combined. Thus, to further improve PPI mapping, developing alternative versions of existing assays might be as productive as designing completely new assays. Our findings should be applicable to systematic mapping of other biological landscapes.
We describeh ere an extensive structure-bioluminescence relationship studyo fachemical library of analogues of coelenterazine, using nanoKAZ/NanoLuc, am utated luciferase originated from the catalytic subunit of the deep-sea shrimp Oplophorus gracilirostris. Out of the 135 Oacetylated precursors that were prepared by using our recently reporteds ynthesis and following their hydrolysis to give solutions of the corresponding luciferins,n otable bioluminescence improvements were achieved in comparison with furimazine, whichi sc urrently amongst the best substrates of nanoKAZ/NanoLuc.F or instance, the ratherm ore lipophilic analogue 8-(2,3-difluorobenzyl)-2-((5-methylfuran-2-yl)methyl)-6-phenylimidazo[1,2-a]pyrazin-3(7H)-one provid-ed a1 .5-fold improvement of the total light outputo ver a 2h period, ac lose to threefold increase of the initial signal intensity and as ignal-to-background ratio five timesg reater than furimazine. The kinetic parameters for the enzymatic reactionw ere obtainedf or as electiono fl uciferina nalogues and provided unexpected insights into the luciferase activity. Most prominently,a long with ag eneral substrate-dependent and irreversible inactivation of this enzyme,i nt he case of the optimized luciferin mentioned above,t he consumption of 2664 molecules was foundt ob er equired for the detection of as ingleR elative Light Unit (RLU;aluminometer-dependentfraction of ap hoton).Scheme1.Mechanism for coelenterazine (1)b ioluminescence.[a] Dr.Supporting information and the ORCID identification number(s) for the author(s) of this articlecan be found under: https://doi.
An original three component synthetic access to coelenterazine and analogues can lead to grams of marine luciferins which are extensively used in bioluminescence-based assays.
Following
our discovery of human dihydroorotate dehydrogenase (DHODH)
inhibition by 2-(3-alkoxy-1H-pyrazol-1-yl)pyrimidine
derivatives as well as 2-(4-benzyl-3-ethoxy-5-methyl-1H-pyrazol-1-yl)-5-methylpyridine, we describe here the syntheses and
evaluation of an array of azine-bearing analogues. As in our previous
report, the structure–activity study of this series of human
DHODH inhibitors was based on a phenotypic assay measuring measles
virus replication. Among other inhibitors, this round of syntheses
and biological evaluation iteration led to the highly active 5-cyclopropyl-2-(4-(2,6-difluorophenoxy)-3-isopropoxy-5-methyl-1H-pyrazol-1-yl)-3-fluoropyridine. Inhibition of DHODH by
this compound was confirmed in an array of in vitro assays, including
enzymatic tests and cell-based assays for viral replication and cellular
growth. This molecule was found to be more active than the known inhibitors
of DHODH, brequinar and teriflunomide, thus opening perspectives for
its use as a tool or for the design of an original series of immunosuppressive
agent. Moreover, because other series of inhibitors of human DHODH
have been found to also affect Plasmodium falciparum DHODH, all the compounds were assayed for their effect on P. falciparum growth. However, the modest in vitro
inhibition solely observed for two compounds did not correlate with
their inhibition of P. falciparum DHODH.
In the last few decades, bioluminescent systems based on the expression of a luciferase and the addition of a luciferin to monitor the emission of light have become very important tools for biological investigations. A growing proportion of these systems use coelenterazine or analogues of imidazo[1,2-a]pyrazine luciferins along with photoproteins or luciferases from sea creatures such as Aequorea, Renilla, Gaussia or Oplophorus. Central to the success of these tools are the synthetic pathways developed not only to prepare the naturally occurring luciferins, but also to design altered compounds that exhibit improved bioluminescence. Current work is indeed focused on the design of systems exhibiting extended luminescence ("glow" systems) or redshifted wavelengths, as well as constructions better adapted to conditions in cells or in vivo. This review describes the synthetic pathways used to prepare imidazo[1,2-a]pyrazine luciferins along with the research efforts aimed at preparing analogues even better suited to the design of assays.
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We have explored here the scope of the age-old diethyl malonate-based accesses to α-amino esters involving Knoevenagel condensations of diethyl malonate on aldehydes, reductions of the resulting alkylidenemalonates, the preparation of the corresponding α-hydroxyimino esters and their final reduction. This synthetic pathway turned out to be general although some unexpected limitations were encountered. The synthetic modifications of some of the intermediates – using Suzuki–Miyaura coupling or cycloadditions – before undertaking the oximation step – provided accesses to further α-amino esters. Moreover, other pathways to α-hydroxyimino esters were explored including an attempt to improve the cycloadditions between ethyl β-bromo-α-hydroxyiminocarboxylate and various alkylfuranes.
SummaryA gold(I)-catalysed reaction of allylic alcohols and phenols produces chromans regioselectively via a one-pot Friedel–Crafts allylation/intramolecular hydroalkoxylation sequence. The reaction is mild, practical and tolerant of a wide variety of substituents on the phenol.
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