1. Penicillium chrysogenum Takes up the Penicillin G Precursor Phenylacetic Acid by Passive Diffusion
- Author
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W.N Konings, Dirk J. Hillenga, Hanneke J.M. Versantvoort, S.J van der Molen, Arnold J. M. Driessen, GBB Microbiology Cluster, and Molecular Microbiology
- Subjects
INVOLVEMENT ,Passive transport ,Stereochemistry ,Synthetic membrane ,WIS 54-1255 ,Phenylacetic acid ,OXIDASE ,Applied Microbiology and Biotechnology ,CYTOCHROME-C ,chemistry.chemical_compound ,Biosynthesis ,medicine ,BIOSYNTHESIS ,TRANSPORT-SYSTEM ,Chromatography ,Ecology ,biology ,INDUCTION ,Membrane transport ,Penicillium chrysogenum ,biology.organism_classification ,Penicillin ,PROTON-MOTIVE FORCE ,Membrane ,chemistry ,Food Science ,Biotechnology ,medicine.drug ,Research Article - Abstract
Penicillium chrysogenum utilizes phenylacetic acid as a side chain precursor in penicillin G biosynthesis. During industrial production of penicillin G, phenylacetic acid is fed in small amounts to the medium to avoid toxic side effects. Phenylacetic acid is taken up from the medium and intracellularly coupled to 6-aminopenicillanic acid. To enter the fungal cell, phenylacetic acid has to pass the plasma membrane. The process via which phenylacetic acid crosses the plasma membrane was studied in mycelia and liposomes. Uptake of phenylacetic acid by mycelium was nonsaturable, and the initial velocity increased logarithmically with decreasing external pH. Studies with liposomes demonstrated a rapid passive flux of the protonated species through liposomal membranes. These results indicate that phenylacetic acid passes the plasma membrane via passive diffusion of the protonated species. The rate of phenylacetic acid uptake at an external concentration of 3 mM is at least 200-fold higher than the penicillin production rate in the Panlabs P2 strain. In this strain, uptake of phenylacetic acid is not the rate-limiting step in penicillin G biosynthesis.
- Published
- 1995