Inhibition of penicillin formation by amino acid analogs

Impaired penicillin production in lysine regulatory mutants of Penicillium chrysogenum

Lysine-regulatory mutants of Penicillium chrysogenum which excrete lysine were found to be deficient in production of penicillin. A revertant recovered the ability to produce penicillin.

Penicillin G production by immobilized whole cells of Penicillium chrysogenum

Penicillium chrysogenum was immobilized in polyacrylamide gel prepared from 5% acrylamide monomers (85% acrylamide and 15% N,N'-methylene bisacrylamide). Penicillin produced from glucose by the immobilized mycelium was 17% of that produced by washed mycelium. However, the activity of penicillin production of the washed mycelium decreased with repeated use. On the other hand, the activity of the immobilized mycelium increased initially and decreased gradually with repeated use. The rate of oxygen uptake of the immobilized mycelium was about 30% of that of the washed mycelium. The immobilized mycelium required oxygen for the production of penicillin.

Uptake and metabolism of alpha-aminoadipic acid by Penicillium chrysogenum Wis 54-1255

The uptake of 1-14C-DL-alpha-aminoadipate in resting mycelium of Penicillium chrysogenum Wis 54-1255 and its metabolism during benzylpenicillin formation were studied. The pH optimum for uptake at 25 degrees C was 6.4. Over a range of concentrations from 0.01--1.0 mM, approximately 45% of 1-14C-DL-alpha-aminoadipate was taken up by carbon-starved mycelium. 14CO2 was formed at a low rate, and the total formed amounted to only 1--3% of the 1-14C-DL-alpha-aminoadipate supplied. The intracellular pool of alpha-aminoadipate appears to be expandable, depending on the concentration of alpha-aminoadipate in the medium. The rate of penicillin synthesis depended on the intracellular concentration of alpha-aminoadipate. Penicillin biosynthesis achieved half of the maximum rate at an intracellular concentration of 0.06 nmol alpha-aminoadipate/mg dry cell weight. This low concentration, the result of adding 0.01 mM DL-alpha-aminoadipate to the medium, was sufficient to reverse the inhibition of penicillin biosynthesis caused by 10 mM extracellular L-lysine. Aminoadipate appears to be recycled during penicillin formation. Labeled alpha-ketoadipate was formed from alpha-aminoadipate to the extent of about 25%.