Benzhydrylamines via base-mediated intramolecular sp(3) C-arylation of N-benzyl-2-nitrobenzenesulfonamides--advanced intermediates for the synthesis of nitrogenous heterocycles.

N-Benzyl-2-nitrobenzenesulfonamides underwent base-mediated intramolecular arylation at the benzyl sp(3) carbon to yield benzhydrylamines. The presence of electron withdrawing groups on the aromatic ring of the benzyl group was required to facilitate the C-arylation. Unsymmetrically substituted benzhydrylamines are advanced intermediates toward nitrogenous heterocycles, as exemplified in the syntheses of indazole oxides and quinazolines.

Base-mediated intramolecular C- and N-arylation of N,N-disubstituted 2-nitrobenzenesulfonamides: advanced intermediates for the synthesis of diverse nitrogenous heterocycles.

Structural and electronic features that facilitate and direct the intramolecular C- and N-arylation of 2-alkyl-2-{[N-(benzyl)-2-nitrophenyl]sulfonamido}acetic acid esters and amides were examined. The substitution pattern and amino acid carboxy-terminal functionality determined the arylation position. C/N-arylated products represent advanced intermediates for combinatorial synthesis of diverse nitrogenous heterocycles, including indazoles, quinazolinones, quinoxalinones, and 3-amino-2-oxindoles.

Nβ-methylation changes the recognition pattern of aza-β3-amino acid containing peptidomimetic substrates by protein kinase A.

The protein kinase A (PKA)-catalyzed phosphorylation of peptide substrate RRASVA analogs, containing Nβ-Me-aza-β3-amino acid residues in all subsequent positions, was studied. This work follows along the lines of our previous research of the phosphorylation of aza-β3-analogs of RRASVA (the shortest active substrate of PKA) and allows characterizing the influence of Nβ-methylation of aza-β3-amino acid residues on substrate recognition by PKA on substrate binding and phosphorylation steps. It was found that the effect of Nβ-methylation was dependent upon the position of the structure alteration.

Effect of two simultaneous aza-β3-amino acid substitutions on recognition of peptide substrates by cAMP dependent protein kinase catalytic subunit.

Peptidomimetic analogs of the hexapeptide RRASVA, containing simultaneously two aza-β(3)-amino acid residues in different positions of this sequence, except for the phosphorylatable serine residue, were synthesized and tested as substrates for the cAMP-dependent protein kinase catalytic subunit. All these peptidomimetics were phosphorylated by the enzyme and this reaction was characterized by the K(m) and k(cat) values as well as by the second-order rate constants k(II). Affinity and reactivity of all peptidomimetics was lower than that for the parent peptide RRASVA.

Aza-beta(3)-amino acid containing peptidomimetics as cAMP-dependent protein kinase substrates.

Peptidomimetic analogs of the peptide RRASVA, known as the "minimal substrate" of the catalytic subunit of the cAMP-dependent protein kinase (PKA), were synthesized by consecutive replacement of natural amino acids by their aza-beta(3) analogs. The peptidomimetics were tested as PKA substrates and the kinetic parameters of the phosphorylation reaction were determined. It was found that the interaction of these peptidomimetics with the enzyme active center was sensitive to the location of the backbone modification, while the maximal rate of the reaction was practically not affected by the structure of substrates.

Addition of arylboronic acids to symmetrical and unsymmetrical azo compounds.

[reaction: see text] The addition of aryl- and heteroarylboronic acids to azo compounds is described. Copper salt catalysis was necessary to perform the reaction under mild conditions and high yields. Excellent regioselectivity was observed in addition to unsymmetrical azo compounds.