Bibliography

Alzhanova, A. T., Fedorov, A. N., Ovchinnikov, L. P., & Spirin, A. S. (1980), "Eukaryotic aminoacyl-tRNA synthetases are RNA-binding proteins whereas prokaryotic ones are not," FEBS Letters 120: 225-229.

Baldwin, A. N. & Berg, P. (1966), "tRNA induced hydrolysis of valyl adenylate bound to isoleucyl-tRNA synthetase", J. Biol. Chem. 241: 839-845.

Baron, C., & Boeck, A. (1995), "The selenocysteine-inserting tRNA species: structue and function", in "tRNA: Structure, Biosynthesis, and Function" (Soell, D. & RajBhandary, U. L., eds.), p.p. 529-544. ASM Press, Washington, DC.

Cavarelli, J., Rees, B., Ruff, M., Thierry, J. C., & Moras, D. (1993), "Yeast tRNAAsp recognition by its cognate class II aminoacyl-tRNA synthetase", Nature 362: 181-184.

Crick, F. H. C. (1957). Discussion in "The structure of nucleic acids and their role in protein synthesis", Biochemical Society Symposium (E. M. Crook, ed.), No. 14, pp. 25-26, Cambridge University Press, Cambridge.

Crothers, D. M., Seno, T. & Soell, D. G. (1972), "Is there a discriminator site in transfer RNA?", Proc. Natl. Acad. Sci. USA 69: 3063-3067.

Dang, C. V., Johnson, D. L., & Yang, D. C. H. (1982), "High molecular mass amino acyl-tRNA synthetase complexes in eukaryotes," FEBS Letters 142: 1-6.

Eriani, G., Delarue, M., Poch, O., Gangloff, J. & Moras, D. (1990), "Partition of tRNA synthetases into two classes based on mutually exclusive sets of sequence motifs", Nature 347: 203-206.

Hoagland, M. B. (1960), "The relationship of nucleic acid and protein synthesis as revealed by studies in cell-free systems," Nucleic Acids (E. Chargaff & J. N. Davidson, eds.), vol. 3, pp. 349-408. New York, Academic Press.

Hoagland, M. B., Zamecnik, P. C., & Stephenson, M. L. (1957), "Intermediate reactions in protein biosynthesis," Biochim. Biophys. Acta 24: 215-216.

Holley, R. W., Apgar, J., Everett, G. A., Madison, J. T., Marquisee, M., Merrill, S. H., Penswick, J. R., & Zamir, A. (1965), "Structure of a ribonucleic acid," Science 147: 1462-1465.

Kim, S. H., Suddath, F. L., Quigley, G. J., McPherson, A., Sussman, J. L., Wang, A. H.-J., Seeman, N. C., & Rich, A. (1974), "Three-dimensional tertiary structure of yeast phenylalanine transfer RNA," Science 185: 435-440.

Marker, K., & Sanger, F. (1964), "N-formyl-methionyl-s-RNA", J. Mol. Biol. 8: 835-840.

Mirande, M., Cirakoglu, B., & J.-P. Waller (1983), "Seven mammalian aminoacyl-tRNA synthetases associated within the same complex are functionally independent," Eur. J. Biochem. 131: 163-170.

Ogata, K. & Nohara, H. (1957), "The possible role of the ribonucleic acid (RNA) of the pH 5 enzyme in amino acid activation," Biochim. Biophys. Acta 25: 659-660.

RajBhandary, U. L., & Chow, C. M. (1995), "Initiator tRNAs and initiation of protein synthesis", in "tRNA: Structure, Biosynthesis, and Function" (Soell, D. & RajBhandary, U. L., eds.), p.p. 511-528. ASM Press, Washington, DC.

Robertus, J. D., Ladner, J. E., Finch, J. T., Rhodes, D., Brown, R. S., Clark, B. F. C., & Klug, A. (1974), "Structure of yeast phenylalanine tRNA at 3 Y resolution," Nature 250: 546-551.

Rould, M. A., Perona, J. J., Steitz, T. A. (1991), "Structural basis of anticodon loop recognition by glutaminyl-tRNA synthetase", Nature 352: 213-218.

Verkamp, E., Kumar, A. M., Lloyd, A., Martins, O., Stange-Thomann, N., & Soell, D. (1995), "Glutamyl-tRNA as an intermediate in glutamate conversions", in "tRNA: Structure, Biosynthesis, and Function" (Soell, D. & RajBhandary,

U. L., eds.), p.p. 545-550. ASM Press, Washington, DC.

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