To study the functional topography of T7 RNA polymerase and the localizatio
n of sites of the enzyme contacts with the template and the RNA product, a
series of nucleotide analogs containing reactive groups potentially capable
of covalent interaction with spatially close amino acid residues of the pr
otein were investigated. The UTP analogs exhibited pronounced properties as
T7 RNA polymerase substrates, which permitted identification of RNA produc
ts containing these modified nucleotides. The kinetics of incorporation of
these derivatives into RNA was studied, the corresponding constants were de
termined, and the dependence of the reaction mechanism on the type of nucle
otide modification was demonstrated. The inhibitory effect of the initiatin
g nucleotide derivative 6-thioGTP on T7 RNA polymerase was shown. This effe
ct was markedly enhanced after UV irradiation, which was indicative of irre
versible binding of the derivative to the enzyme. The derivatives of the co
nsensus T7 promoter with modified nucleotides in different positions were o
btained, their catalytic competence and applicability as highly specific af
finity reagents were investigated.