화학공학소재연구정보센터
Applied Microbiology and Biotechnology, Vol.55, No.2, 219-225, 2001
Studies on the possibility of histidine biosynthesis from histidinol, imidazolepyruvic acid, imidazoleacetic acid, and imidazolelactic acid by mixed ruminal bacteria, protozoa, and their mixture in vitro
The possibility of histidine (His) synthesis using a main biosynthetic pathway involving histidinol (HDL) and also the recycling capability of imidazolic compounds such as imidazolepyruvic acid (ImPA), imidazoleacetic acid (ImAA), and imidazolelactic acid (ImLA) to produce His were investigated using mixed ruminal bacteria (B), protozoa (P), and a mixture of both (BP) in an in vitro system. Rumen microorganisms were anaerobically incubated at 39 degreesC for 18 h with or without each substrate (2 mM) mentioned. His and other related compounds produced in both the supernatants and hydrolyzates of the incubation were analyzed by high-performance liquid chromatography. B, P, and BP suspensions failed to show His synthesizing ability when incubated with HDL. His was synthesized from ImPA by B, P, and BP. Expressed in units "per gram of microbial nitrogen (MN)", ImPA disappearance was greatest in B (72.7 mu mol/g MN per hour), followed by BP (33.13 mu mol/g MN per hour) and then P (18.6 mu mol/g MN per hour) for the 18-h incubation period. The production of His from ImPA in B (240.0, 275.9, and 261.2 mu mol/g MN in 6, 12, and 18 h incubation, respectively) was about 3.5 times higher than that in P (67.3, 83.8, and 72.7 mu mol/g MN in 6, 12, and 18 h incubation, respectively). Other metabolites produced from ImPA were ImLA, ImAA, histamine (HTM), and urocanic acid (URA), found in all microbial suspensions. ImLA as a substrate remained without diminution in all microbial suspensions. Although ImAA was found to be degraded to a small extent (3.4-6.3%) only after 18 h incubation, neither His nor other metabolites were detected on the chromatograms. These results have been demonstrated for the first time in rumen microorganisms and suggest that His may be an essential amino acid for numen microorganisms.