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Title: Isoleucyl-tRNA synthetase from Baker's yeast. Catalytic mechanism, 2',3'-specificity and fidelity in aminoacylation of tRNAIle with isoleucine and valine investigated with initial-rate kinetics using analogs of tRNA, ATP and amino acids. Author: Freist W, Cramer F. Journal: Eur J Biochem; 1983 Mar 01; 131(1):65-80. PubMed ID: 6339236. Abstract: The aminoacylation of three modified tRNAIle species with isoleucine and with valine by isoleucyl-tRNA synthetase has been investigated by initial rate kinetics. For aminoacylation of tRNAIle-C-C-3'dA with isoleucine, a bi-bi uni-uni ping-pong mechanism has been found by bisubstrate kinetics and inhibition by products and by 3'dATP; for aminoacylation with valine a bi-uni uni-bi ping-pong mechanism. For isoleucylation of tRNAIle-C-C-A(3'NH2) bisubstrate kinetics, inhibition by products and by isoleucinol show a random uni-bi uni-uni-uni ping-pong mechanism; for valylation of this tRNA a bi-bi uni-uni ping-pong mechanism is observed by bisubstrate kinetics and product inhibition. tRNAIle-C-C-2'dA was aminoacylated under modified conditions with isoleucine in a bi-bi uni-uni ping-pong mechanism with a rapid equilibrium segment as observed by bisubstrate kinetics, inhibition by AMP, by P[NH]P as product analog and by isoleucinol. Aminoacylation with valine is achieved in a rapid-equilibrium sequential random AB, ordered C mechanism indicated by bisubstrate kinetics and inhibition by 3'dATP and valinol. All six reactions exhibit orders of substrate addition and product release which are different from those observed in aminoacylation of the natural tRNAIle-C-C-A. The Km values of the three substrates and the kcat values of the six reactions are given. For aminoacylation at the terminal 2'OH group of the tRNA differences of 13.38 and 13.17 kJ in binding energies between valine and isoleucine have been calculated which result in discrimination factors of 181 and 167. For aminoacylation at the terminal 3'-OH group a difference of only 4.43 kJ and a low discrimination factor of only 6 is observed. Thus maximal discrimination between the cognate and the noncognate amino acid is only achieved in aminoacylation at the 2'-OH group and conclusions drawn from experiments with modified tRNAs concerning 2',3'-specificity have led to correct results in spite of different catalytic cycles in aminoacylation of the natural and the modified tRNAs. The stability of Ile-tRNAIle-C-C-2'dA and Val-tRNAIle-C-C-2'dA, the lesser stability of Val-tRNAVal-C-C-2'dA and the instability of Thr-tRNAVal-C-C-2'dA are consistent with postulations for a 'pre-transfer' proofreading step for isoleucyl-tRNA synthetase and a 'post-transfer' hydrolytic editing step for valyl-tRNA synthetase at the terminal 3'OH group of the tRNA.[Abstract] [Full Text] [Related] [New Search]