Physiological role of tyrosine transport systems in Halobacterium salinarium

The quantitative content of three transport systems for aromatic amino acids in cells of Halobacterium salinarium was measured: the common system (K _m is about 10^-6 M) and two tyrosine-specific systems with high and low affinity (K _m is about 10^-8 and 10^-5 M, respectively). To determine the activity of each of three systems separately, a method was developed based on the selective phenylalanine effect on these activities. When phenylalanine exeeds ¹⁴C]tyrosine by four to sixforld, it inhibits competitively the activity of the common system, and its 50- to 100-fold molar excess is inhibitory in a non-competitive way for the specific high affinity system (HAT system). The specific low affinity system (LAT system) is practically insensitive to phenylalanine. The activities of tyrosine-specific transport systems are slightly dependent on the culture age, and the observed decrease in transport activity during growth is due mainly to the decreased content of the common system. The HAT system formation is regulated by the repression type, and the effectors are aromatic amino acids especially tyrosine itself. The physiological sense of the tyrosine transport system's multiplicity in H. salinarium is discussed.