Showing papers in "Biochemistry in 1967"

Spectroscopic determination of tryptophan and tyrosine in proteins.

Abstract: A rapid method for the determination of tryptophan in proteins is presented. It is based on ab- sorbance measurements at 288 and 280 mp of the protein dissolved in 6 M guanidine hydrochloride. Blocked tryptophanyl (N-acetyl-L-tryptophanamide) and tyrosyl (glycyl-L-tyrosylglycine) compounds were selected as C urrent methods of protein amino acid analysis do not give quantitative values for tryptophan and conse- quently the amino acid compositions, which are other- wise complete, fail to report tryptophan values. The principal reason for this situation is that the standard procedure of protein hydrolysis in strong acid results in the destruction of tryptophan (Hill, 1965). Therefore a second procedure is required to measure tryptophan. Alkaline hydrolysis is less destructive but does not give quantitative recoveries generally (Spies and Chambers, 1949). Enzymatic hydrolysis of proteins can give quanti- tative yields of tryptophan but this method may not be generally valid (Hill and Schmidt, 1962). The hydrolytic problem can be circumvented by meas- uring tryptophan in the intact protein. A chemical method has been developed which has not been exploited adequately (Spies and Chambers, 1948, 1949). On the other hand, considerable effort has been expended in developing absorption spectroscopic procedures to measure tryptophan and tyrosine in unhydrolyzed pro- teins. Holiday (1936) and Goodwin and Morton (1946) have measured the absorption of proteins in 0.1 M NaOH and computed their tryptophan and tyrosine contents based on comparison with the absorption of the two amino acids. A modification of these techniques has been presented by Bencze and Schmid (1957). The pre- ceding three methods do not give quantitative results. The behavior of the chromophores has not been nor- malized and the two models, i.e., tryptophan and tyro- sine, are not completely adequate. A procedure is sug- gested in this report which strongly reduces or elimi- nates these interactions, normalizes their absorption, and consequently permits a more precise analysis of tryptophan and tyrosine in proteins.