Experimental Observation of a Terminal Borylene-Dinitrogen Adduct via Cleavage of a 1,2,3,4,5-Diboratriazoline.

While azides do not react with simple alkenes except under harsh conditions, a diboron alkene analogue, the doubly cyclic alkyl(amino)carbene (CAAC)-stabilized dicyanodiborene 1, reacts spontaneously with organic azides (7-10 equiv.) at room temperature to yield two equivalents of stable CAAC-stabilized imino(cyano)boranes (2-R). NMR-spectroscopic monitoring of the reaction mixtures shows the initial formation of a 1:1 mixture of 2-R and a relatively long-lived intermediate (Int), which in the presence of excess azide is converted into a second equivalent of 2-R. In the absence of excess azide, however, Int decomposes to 3, the product of an intramolecular C‒H activation by a putative dicoordinate borylene intermediate "(CAAC)B(CN)". Mechanistic insights from trapping experiments, NMR-spectroscopic and high-resolution mass spectrometry data, as well as DFT computations reveal that Int is the terminal borylene end-on-dinitrogen adduct [(CAAC)B(CN)(η1-N2)]. The formation of the iminoboranes 2-R from diborene 1 and RN3 proceeds via an azide-diborene Huisgen-type [3+2] cycloaddition reaction, followed by a retro-[3+2] cycloaddition, yielding 2-R and [(CAAC)B(CN)(η1-N2)]. The latter then undergoes either N2 extrusion and intramolecular C‒H activationto generate 3, or a Staudinger-type reaction with a second equivalent of azide to generate a second equivalent of the iminoborane 2-R.

[Bavarian online database for corona screening tests-development and use of a digital solution in the pandemic]. / Bayerisches Meldeportal für Corona-Reihenuntersuchungen ­ Entwicklung und Einsatz einer digitalen Lösung in der Pandemie.

During the SARS-CoV­2 pandemic, various data had to be collected to support political decisions for pandemic preparedness and response. Nevertheless, using analogue tools like paper and pencil as well as sending files with media discontinuity that have to be merged later are not useful and can hardly provide usable data in real time. With the selected system architecture, the Bavarian Online Database for Corona Screening Tests (BayCoRei) is a central, Bavaria-wide, consistent digital solution that is agile and easy to use. BayCoRei uses established technical components and interfaces. Apart from this, the support of the individual stakeholders (e.g., health authorities, service providers, and district governments) plays a decisive role in the success of the solution. The present article describes BayCoRei and two other online databases as examples that comprise the technology and architecture that have proven to be (rapidly) deployable and points out the gap between intention and reality regarding pandemic management.

Metal-Free Intermolecular C-H Borylation of N-Heterocycles at B-B Multiple Bonds.

Carbene-stabilized diborynes of the form LBBL (L=N-heterocyclic carbene (NHC) or cyclic alkyl(amino)carbene (CAAC)) induce rapid, high yielding, intermolecular ortho-C-H borylation at N-heterocycles at room temperature. A simple pyridyldiborene is formed when an NHC-stabilized diboryne is combined with pyridine, while a CAAC-stabilized diboryne leads to activation of two pyridine molecules to give a tricyclic alkylideneborane, which can be forced to undergo a further H-shift resulting in a zwitterionic, doubly benzo-fused 1,3,2,5-diazadiborinine by heating. Use of the extended N-heteroaromatic quinoline leads to a borylmethyleneborane under mild conditions via an unprecedented boron-carbon exchange process.

N-Acetyl-5-arylalkoxytryptamine analogs: probing the melatonin receptors for MT(1) -selectivity.

A series of melatonin analogs obtained by the replacement of the ether methyl group with larger arylalkyl and aryloxyalkyl substituents was prepared in order to probe the melatonin receptors for MT(1) -selectivity. The most MT(1) -selective agents 11 and 15 were substituted with a Ph(CH(2) )(3) or a PhO(CH(2) )(3) group. Compounds 11 and 15 displayed 11.5-fold and 11-fold higher affinity for the MT(1) receptors than for the MT(2) subtype. Interestingly, in our binding assay 11 and 15 have shown considerably higher MT(1) -affinity and selectivity than the reference ligand, the dimeric agomelatine 1a.

Synthesis and pharmacological evaluation of 1,2,3,4-tetrahydropyrazino[1,2-a]indole and 2-[(phenylmethylamino)methyl]-1H-indole analogues as novel melatoninergic ligands.

Two novel series of melatonin-derived compounds have been synthesized and pharmacologically evaluated at the MT(1) and MT(2) subtypes of melatonin receptors. Compounds 12b-c are non-selective high-affinity MT(1) and MT(2) receptor ligands (K(i)=7-11 nM). Compound 12b had little intrinsic activity at the MT(1) receptor and no intrinsic activity at the MT(2) receptor. Compound 20d displayed the highest MT(2) binding affinity (K(i)=2 nM) and moderate selectivity toward the MT(2) subtype (K(i) MT(1)/MT(2) ratio=8) behaving as MT(2) antagonist and MT(1) agonist (IC(50)=112 pM). The findings help define SARs around the positions 1 and 2 of melatonin with respect to binding affinity, MT(2) selectivity, and intrinsic activity.