[RNA polymerase as a molecular machine]

Abstract

Structure and function of DNA-dependent RNA polymerase is considered in terms of a conveying molecular machine. The use of mechanical energy and mechanical devices, such as "power-stroke motor", is supposed unlikely in the conveying function of RNA polymerase, as well as other molecular machines. Brownian motion and thermal mobility of macromolecules and their parts are postulated as the only motive impulse at the molecular level. Binding of substrates and subsequent chemical reaction as the energy input may provide successive selection and fixation of alternative conformational states of the enzyme complex thus providing the directionality of the conveyance ("Brownian ratchet mechanism"). The following sequence of events "substrate binding--fixation of a certain conformational state--chemical reaction--fixation of an alternative conformational state--translocation (dissociation and downstream reassociation) of product-template duplex" is proposed as the principal scheme of the forward movement of RNA polymerase along DNA template.