Christopher M. Vogels

Synthesis and antifungal and antibacterial bioactivity of cyclic diamines containing boronate esters

Novel N2B heterocycles (1–5) are formed from the reaction of ethylenediamine derivatives with 2-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)benzaldehyde (2-HC(O)C6H4Bpin; pin = 1,2-O2C2Me4). X-ray diffraction studies have been carried out on four examples and show that reactions are selective in giving the isomer where the least substituted amine coordinates to the Lewis-acidic boron atom. Reaction of 2-HC(O)C6H4Bpin with diethylenetriamine gave a heterocycle (6) with a pendant primary amine group, which reacts further with 2-pyridinecarboxaldehyde to give a potential ligand (7) for transition metals. All new compounds show considerable antifungal activity against Aspergillus niger and Aspergillus flavus and moderate antibacterial activity against Bacillus cereus.

The Phosphinoboration Reaction

The synthesis of phosphinoboronate esters containing a single P-B bond is reported, together with preliminary reactivity studies towards a range of organic substrates. These compounds add readily to aldehydes, ketones, aldimines, and α,β-unsaturated enones to give primarily the corresponding 1,2-addition products containing a new P-C bond. The first examples of transition-metal-catalyzed phosphinoborations of C-C multiple bonds in which P-C and B-C bonds are formed in a single step are also disclosed; allenes react by a highly regioselective 1,2-addition whereas terminal alkynes undergo a formal 1,1-addition.

Synthesis, Characterization, and Reactivity of Rhodium(I) Acetylacetonato Complexes Containing Pyridinecarboxaldimine Ligands

Addition of o-C 6H 4NCHNAr to Rh(coe) 2(acac) (coe = cis-cyclooctene, acac = acetylacetonato) gave several new iminopyridine rhodium(I) complexes of the type Rh(acac)(kappa (2)- o-C 6H 4 NCH NAr) ( 1a Ar = 4-C 6H 4-OMe; 1b Ar = 2,6-C 6H 3-Me 2; 1c Ar = 2,6-C 6H 3-Et 2; 1d Ar = 2,6-C 6H 3- i-Pr 2). All new rhodium complexes have been characterized by a number of physical methods, including multinuclear NMR spectroscopy and X-ray diffraction studies for 1b and 1c. Addition of CHCl 3 to 1a afforded the corresponding rhodium(III) complex trans-Rh(kappa (2)- o-C 6H 4 NCH NAr)(CHCl 2)(Cl)(acac) ( 2). Addition of B 2cat 3 (cat = 1,2-O 2C 6H 4) to 1 gave zwitterionic Rh(eta (6)-catBcat)(kappa (2)- o-C 6H 4 NCH NAr) ( 3). The molecular structure of 3b has been confirmed by a single crystal X-ray diffraction study and shows that the N 2Rh fragment is bound to the catBcat anion via one of the catecholato groups in a eta (6)-fashion. These complexes have also been examined for their ability to catalyze the hydroboration of a series of vinylarenes. Reactions using catecholborane and pinacolborane seem to proceed largely through a dehydrogenative borylation mechanism to give a number of boronated products.

Synthesis, Characterization, and Antifungal Activity of Boron-Containing Thiosemicarbazones

Addition of thiosemicarbazide, 4‐allylthiosemicarbazide, and 4‐phenylthiosemicarbazide to (formylphenyl)boronic acids affords a series of thiosemicarbazones containing boronic acids. Addition of 2‐formylphenylboronic acid to the thiosemicarbazides gave the corresponding cyclic 2,3,1‐benzodiazaborines. All new compounds have been investigated for potential antifungal activity.

Metal catalysed addition of B–H and N–H bonds to aminopropyl vinyl ethers

The rhodium catalysed addition of pinacolborane to aminopropyl vinyl ethers gave selective formation of the corresponding alkenylboronate esters while palladium or platinum complexes catalysed the hydroamination of aminopropyl vinyl ether to give tetrahydro-2-methyl-1,3-oxazine.

Thioboration of α,β-unsaturated ketones and aldehydes toward the synthesis of β-sulfido carbonyl compounds.

Herein a direct β-sulfido carbonyl compound synthesis by the easy activation of RS-Bpin reagents with α,β-unsaturated ketones and aldehydes is reported. This convenient methodology can be performed at room temperature with no other additives. The key point of this reactivity is based on the Lewis acidic properties of the boryl unit of the RS-Bpin reagent interacting with the C═O oxygen. Consequently, the SR unit becomes more nucleophilic and promotes the 1,4- versus the 1,2-addition, as a function of the involved substrate. The thioborated products can be further transformed into β-sulfido carbonyl compounds by addition of MeOH.

Strategic Trimethylsilyldiazomethane Insertion into pinB–SR Followed by Selective Alkylations

The insertion of the diazo derivative Me3SiCHN2 into pinB-SR σ bonds (R = Ph, Tol, Bn) allows a direct synthesis of multisubstituted H-C(SR)(Bpin)(SiMe3) compounds. Consecutive base-assisted transformations of HC(S)(B) (Si) systems lead to deborylative alkylations, Sommelet-Haüser rearrangements, and deprotoalkylations. Intramolecular cyclizations can be selectively performed either via desilylative or deborylative manifolds by fine-tuning the base employed.

Synthesis, characterization and antifungal testing of 3,4-dihydropyrimidin-2(1H)-(thio)ones containing boronic acids and boronate esters

The addition of formylphenylboronic acid derivatives to thiourea and ethyl acetoacetate proceeds in the presence of an additional Lewis acid catalyst to give the corresponding 3,4-dihydropyrimidin-2(1H)-(thio)ones (Biginelli products) in moderate yield. Compounds were tested for antifungal activity against pure cultures of Aspergillus niger, Aspergillus flavus, Candida albicans and Saccharomyces cerevisiae but, unfortunately, none showed any appreciable activity.

Catalyzed hydroboration of allyl sulfonamides

The hydroboration of allyl sulfonamides (4-H3CC6H4SO2NRCH2CHCH2: R=H, 1; Ph, 2; Bz, 3) with catecholborane (HBcat) using different rhodium catalysts has been examined using multinuclear NMR spectroscopy. Reactions give complex product distributions, regardless of the choice of catalyst, arising from a competing isomerization reaction. This isomerization reaction can be used with N-substituted allyl sulfonamides 2 and 3 to give the corresponding enamines (4-H3CC6H4SO2CHCH2CH3), which in turn react with HBcat to give regioselective formation of one isomer (4-H3CC6H4SO2NRCH2CH2(Bcat)CH3).

Synthesis, Characterisation, and Antifungal Activities of Novel Benzodiazaborines

Eight new fluoro- and methoxy-substituted benzodiazaborines have been prepared by a simple condensation reaction in high-to-excellent yields. All new compounds have been characterised by several physical methods, including X-ray diffraction studies on three examples. All new compounds were examined for antifungal activities against five species of potentially pathogenic fungi (Aspergillus niger, Aspergillus fumigatus, Rhizoctonia solani, Verticillium albo-atrum, and Verticillium dahliae). While substitution of the aromatic group derived from the 2-formylphenylboronic acid group had an effect on bioactivities, substitution on the parent thioamide C(=S)NH2 group of the starting thiosemicarbazide greatly reduced activities.