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Purification of Leucine tRNA Isoaccepting Species from Soybean Cotyledons

I. Benzoylated Diethylamino Cellulose Fractionation, N-Hydroxysuccinimide Modification, and Characterization of Product ¹

^a Department of Horticulture, Purdue University, West Lafayette, Indiana 47907

Transfer RNA from soybean (Glycine max) cotyledons was purified to homogeneity followed by the purification of the family of leucine tRNA via benzoylated diethylaminoethyl cellulose (BDC) chromatography. Nonacylated total purified tRNA was salicylhydroxamate (SHAM) modified by the phenoxyacetyl method and fractionated into three peaks on a BDC column. The first peak containing bulk tRNA with no hydrophobic character amounted to 78% of the added tRNA. The second peak containing 19% of the added tRNA and represents the tRNA with intrinsic hydrophobic properties. The third peak containing 3% of the tRNA represents the SHAM modified tRNA and nonspecifically modified tRNA. Transfer RNA peaks I and II were pooled and subsequently stoichiometrically acylated in two batches, one containing [¹⁴C]leucine while the other contained unlabeled leucine. The acylated tRNA was loaded on and step-eluted from a BDC column. The purified acylated-tRNA was phenoxyacetyl modified and following ethanol precipitation was fractionated on a BDC column. A double peak eluted from the column in the ethanol gradient contained 5.3% of the starting optical density and 85.3% of the starting counts per minute. Characterization of this leucine tRNA showed typical ultraviolet spectra properties and appeared to be homogeneous on a G-100 Sephadex column. The minimum purity of the tRNA was 32 to 35%. Finally, the acylated tRNA was chromatographed on an RPC-2 column giving six leucine isoaccepting tRNAs. The data indicate that leucine tRNA was highly purified without losing the integrity of the family of isoacceptors.

³ To whom correspondence should be addressed.

¹ Journal Paper No. 6632 of the Purdue Agricultural Experiment Station.