DNA-methyltransferase SsoII as a bifunctional protein: features of the interaction with the promoter region of SsoII restriction-modification genes.

DNA duplexes bearing an aldehyde group at the 2'-position of the sugar moiety were used for affinity modification of (cytosine-5)-DNA methyltransferase SsoII. It is shown that lysine residues of M.SsoII N-terminal region are located in proximity to DNA sugar-phosphate backbone of a regulatory sequence of promoter region of SsoII restriction-modification enzyme coding genes. The ability of the two M.SsoII subunits to interact with DNA regulatory sequence has been demonstrated by affinity modification using DNA duplexes with two 2'-aldehyde groups. Changes in nucleotide sequence of one half of the regulatory region prevented cross-linking of the second M.SsoII subunit. The results on sequential affinity modification of M.SsoII by two types of modified DNA ligands (i.e. by 2'-aldehyde-containing and phosphoryldisulfide-containing) have demonstrated the possibility of covalent attachment of the protein to two different DNA recognition sites: regulatory sequence and methylation site.

Analysis of DNA-protein interactions in complexes of transcription factor NF-kappaB with DNA.

We have applied bioinformatic analysis of X-ray 3D structures of complexes of transcription factor NF-kappaB with DNAs. We determined the number of possible Van der Waals contacts and hydrogen bonds between amino acid residues and nucleotides. Conservative contacts in the NF-kappaB dimer-DNA complex composed of p50 and/or p65 NF-kappaB subunit and DNA sequences like 5 -GGGAMWTTCC-3 were revealed. Based on these results, we propose a novel scheme for interactions between NF-kappaB p50 homodimer and the kappaB region of the immunoglobulin light chain gene enhancer (Ig-kappaB). We applied a chemical cross-linking technique to study the proximity of some Lys and Cys residues of NF-kappaB p50 subunit with certain reactive nucleotides into its recognition site. In all cases, the experimentally determined protein-DNA contacts were in good agreement with the predicted ones.

[Covalent binding of Cys142 from SsoII methyltransferase with DNA duplexes, containing a phosphoryldisulfide internucleotide group]. / Kovalentnoe sviazyvanie Cys142 metiltransferazy SsoII s DNK-dupleksami, soderzhashchimi fosforildisulfidnuiu mezhnukleotidnuiu grupppu.

DNA duplexes containing a single phosphoryldisulfide link in place of the natural internucleotide phosphodiester bond were employed in affinity modification of Cys142 in cytosine-C5 DNA methyltransferase SsoII (M.SsoII). The possibility of duplex-M.SsoII conjugation as a result of disulfide exchange was demonstrated. The crosslinking efficiency proved to depend on the DNA primary structure, modification position, and the presence of S-adenosyl-L-homocysteine, a nonreactive analog of the methylation cofactor. The SH group of M.SsoII Cys142 was assumed to be close to the DNA sugar-phosphate backbone in the DNA-enzyme complex.

[DNA duplexes containing 2'-deoxy-2'-iodoacetamidouridine as reagents for affinity modification of proteins]. / DNK-dupleksy, soderzhashchie 2'-dezoksi-2'-iodatsetamidouridin, kak reagenty dlia affinnoi modifikatsii belkov.

DNA duplexes containing the iodoacetamido group at position 2' of the ribose moiety were proposed for affinity modification of Cys in DNA-binding proteins. Reactive DNA derivatives were obtained with iodoacetic anhydride and synthetic oligodeoxyribonucleotides containing 2'-amino-2'-deoxyuridine in place of thymine at various positions. The derivatives were tested for reaction with amino acids and peptides and shown to specifically interact with Cys-containing proteins. The possibility of using the modified DNA duplexes to probe the protein SH group close to the DNA sugar-phosphate backbone in DNA-protein complexes was demonstrated with the example of subunit p50 of human transcription factor NF-kappa B.