Industrial Bioprocessing and Downstream Recovery of Mycophenolic Acid episode artwork

EPISODE · Apr 15, 2026 · 21 MIN

Industrial Bioprocessing and Downstream Recovery of Mycophenolic Acid

from Biomanufacturing & Fermentation Technology · host prasad ernala

The episode examines the industrial production of #mycophenolic acid (MPA), a vital fungal metabolite used for immunosuppressive medications. While increasing fermentation yields is important, the source emphasizes that #downstream processing is the primary factor determining commercial success due to the complex nature of fungal broths. Challenges such as high viscosity and difficult filtration necessitate a specialized recovery sequence involving pH-driven extraction and crystallization. The text also contrasts MPA with ergothioneine to highlight that MPA production is uniquely burdened by its purification requirements and solvent dependence. Ultimately, the authors argue that profitable manufacturing requires an integrated approach that balances fungal growth control with efficient separation technologies.#Bioprocess #ScaleUp and #TechTransfer,#Industrial #Microbiology,#MetabolicEngineering and #SystemsBiology,#Bioprocessing,#MicrobialFermentation,#Bio-manufacturing,#Industrial #Biotechnology,#Fermentation Engineering,#ProcessDevelopment,#Microbiology,#Biochemistry,#Biochemical Engineering, #Applied #MicrobialPhysiology, #Microbial #ProcessEngineering, #Upstream #BioprocessDevelopment, #Downstream Processing and #Purification,#CellCulture and #MicrobialSystems Engineering, #Bioreaction #Enzymes, #Biocatalyst #scientific #Scientist #Research

The episode examines the industrial production of #mycophenolic acid (MPA), a vital fungal metabolite used for immunosuppressive medications. While increasing fermentation yields is important, the source emphasizes that #downstream processing is the primary factor determining commercial success due to the complex nature of fungal broths. Challenges such as high viscosity and difficult filtration necessitate a specialized recovery sequence involving pH-driven extraction and crystallization. The text also contrasts MPA with ergothioneine to highlight that MPA production is uniquely burdened by its purification requirements and solvent dependence. Ultimately, the authors argue that profitable manufacturing requires an integrated approach that balances fungal growth control with efficient separation technologies.#Bioprocess #ScaleUp and #TechTransfer,#Industrial #Microbiology,#MetabolicEngineering and #SystemsBiology,#Bioprocessing,#MicrobialFermentation,#Bio-manufacturing,#Industrial #Biotechnology,#Fermentation Engineering,#ProcessDevelopment,#Microbiology,#Biochemistry,#Biochemical Engineering, #Applied #MicrobialPhysiology, #Microbial #ProcessEngineering, #Upstream #BioprocessDevelopment, #Downstream Processing and #Purification,#CellCulture and #MicrobialSystems Engineering, #Bioreaction #Enzymes, #Biocatalyst #scientific #Scientist #Research

NOW PLAYING

Industrial Bioprocessing and Downstream Recovery of Mycophenolic Acid

0:00 21:29

No transcript for this episode yet

We transcribe on demand. Request one and we'll notify you when it's ready — usually under 10 minutes.

No similar episodes found.

No similar podcasts found.

Frequently Asked Questions

How long is this episode of Biomanufacturing & Fermentation Technology?

This episode is 21 minutes long.

When was this Biomanufacturing & Fermentation Technology episode published?

This episode was published on April 15, 2026.

What is this episode about?

The episode examines the industrial production of #mycophenolic acid (MPA), a vital fungal metabolite used for immunosuppressive medications. While increasing fermentation yields is important, the source emphasizes that #downstream processing is the...

Can I download this Biomanufacturing & Fermentation Technology episode?

Yes, you can download this episode by clicking the download button on the episode player, or subscribe to the podcast in your preferred podcast app for automatic downloads.
URL copied to clipboard!