The F-995 Redox FermProbe features a K9 metric cap for use when the cable connector is red or orange and has a K9 connector. Redox sensors are most commonly used to maintain anaerobic conditions in a culture media.
Reasons to Measure Redox in Fermentation Media
The metabolic activity of microorganisms depends on many factors, including the redox potential of the culture environment. Measuring the redox potential allows the vessel operator to monitor the addition of reducing agents while ensuring that the potential is in the proper range for initiation of growth. It is also important to monitor the redox potential just before inoculation.
Anaerobic fermentation
Redox sensors are most commonly used to maintain anaerobic conditions in a culture media. They can be used to measure trace amounts (<1 ppm) of dissolved oxygen, at levels that are too low for D.O. sensors.
Downstream Processing
Sometimes used in steps performed downstream of the fermentation process, redox sensors can monitor changes in concentration or the absence or presence of specific chemicals. Monitoring the redox potential is an effective way of tracking chemical conversions in the process.
Protein folding
The close regulation of redox potential is crucial to allow efficient formation of disulfide bonds, which facilitate folding and the stability of the folded protein. Overly oxidising conditions can result in misfolding due to the formation of incorrect bonds.
Metabolic pathways
Measuring the redox potential is an effective way to determine its influence on the metabolic pathways of microorganisms. This is useful for substrate utilisation or the production of specific metabolites.
Specification for F-995 Redox FermProbe
- ± 5000 mV range
- Steam sterilisable to 135°C
- 150 psig maximum pressure
- Double junction, Ag-AgCl reference system
- Metric Pg13.5 threaded disconnect cap