Control of the general amino acid permease of Penicillium chrysogenum by transinhibition and turnover

When nitrogen-starved mycelium of Penicillium chrysogenum is incubated with relatively high concentrations of labeled hydrophobic amino acids, influx is followed by efflux of the corresponding labeled α-ketoacid. In spite of the efflux, further transport activity is suppressed. Cell-free extracts contain a transaminase that accepts all those amino acids exhibiting α-ketoacid efflux. Transaminase activity is constitutive but is induced to a 2- to 3-fold higher level during a 2-hr preincubation period with a hydrophobic amino acid. Cycloheximide prevents efflux and also the induction of the transaminase. Cycloheximide itself stimulates a partial decay in transport activity but mycelium preincubated with l-leucine and cycloheximide together retain a greater fraction of the original transport activity than mycelium preincubated with l-leucine alone. The results suggest that transport is regulated partially by transinhibition but a significant part of the substrate-induced decay of transport activity is caused by either (a) the degradation of a permease component (perhaps facilitated by transinhibition), or (b) the induction by the substrate of a regulator protein (perhaps the transaminase).The uptake of labeled substrates by nutrient sufficient mycelium correlates well with lipid solubility of the substrates. This suggests that the nonsaturable uptake observed in these mycelia results from free diffusion of the uncharged species.