Incubator shaker
Minitron
Incubator shaker
Minitron
Make the most of your research lab space with this compact and cost-effective incubator shaker
With all the capabilities of the Multitron shaker in a space-saving design, the Minitron handles a variety of applications from standard microorganisms to complex cell cultivations while fitting into the smallest laboratories.
Advantages
Maximize oxygenation and achieve comparable results in a range of vessels from microtiter plates to 5 L shake flasks with shaking throws of either 25 or 50 mm and high shaking speeds up to 400 rpm.
The drive unit is powerful yet quiet and reliable for every load and has dynamic balancing to help eliminate handling errors, unwanted stopping, and unnecessary manual adjustments.
Maximize oxygenation and achieve comparable results in a range of vessels from microtiter plates to 5 L shake flasks with shaking throws of either 25 or 50 mm and high shaking speeds up to 400 rpm.
The drive unit is powerful yet quiet and reliable for every load and has dynamic balancing to help eliminate handling errors, unwanted stopping, and unnecessary manual adjustments.
Water for Incubators
After years of feedback and study, INFORS HT has developed Water for Incubators. It is double distilled, 0.1µm filter sterilized, has a pH of 7-9 with a conductivity of 1-20 µS/cm, and is terminal sterilized. The water formulation removes certain divalent ions and raises the pH to fight off waterborne bacteria and fungi to provide a sterile culture environment.
Product specifications
- Dimensions (W x D x H): Single unit: 800 x 625 x 700 mm, Double stacked unit: 800 x 625 x 1,490 mm
- Shaking throw of either 25 or 50 mm to accommodate your flask size and application needs
- Optimal conditions for mammalian and insect cells with active CO2 control, hygienic direct steam humification limiting evaporation effects, and highly-sealed housing ensuring low CO2 consumption.
Product downloads
Related publications
All publicationsResearchers at Adimab, LLC isolated 188 monoclonal antibodies against Crimean-Congo hemorrhagic fever virus (CCHFV) GP38 from human survivors. While non-neutralizing, these antibodies target 11 overlapping sites and demonstrate protective efficacy in rodent models. This study provides valuable insights into CCHFV viral glycoprotein and could aid the development of antibody therapeutics for this lethal virus.
Researchers at the University of Delaware used the INFORS HT Multitron incubator shaker to evaluate biolayer interferometry (BLI) for fast, high-throughput AAV capsid titer measurement. The study highlights the accuracy of AAVX-BLI across multiple rAAV serotypes, making it a strong alternative to ELISA. Applied in transfection optimization and AAV purification, this method offers valuable insights for improving rAAV production processes.
Researchers from the Institute of Bioprocess Engineering and Pharmaceutical Technology at the University of Applied Sciences Mittelhessen have made strides in chemoorganotrophic electrofermentation using Cupriavidus necator. By experimenting with different redox mediators, they identified ferricyanide as a key player in enhancing anodic respiration. With the INFORS HT Multitron providing precise environmental control, the team achieved remarkable current densities, offering a promising solution to the challenges of oxygen-driven fermentation systems.
Researchers at Adimab, LLC isolated 188 monoclonal antibodies against Crimean-Congo hemorrhagic fever virus (CCHFV) GP38 from human survivors. While non-neutralizing, these antibodies target 11 overlapping sites and demonstrate protective efficacy in rodent models. This study provides valuable insights into CCHFV viral glycoprotein and could aid the development of antibody therapeutics for this lethal virus.
Researchers at the University of Delaware used the INFORS HT Multitron incubator shaker to evaluate biolayer interferometry (BLI) for fast, high-throughput AAV capsid titer measurement. The study highlights the accuracy of AAVX-BLI across multiple rAAV serotypes, making it a strong alternative to ELISA. Applied in transfection optimization and AAV purification, this method offers valuable insights for improving rAAV production processes.
Researchers from the Institute of Bioprocess Engineering and Pharmaceutical Technology at the University of Applied Sciences Mittelhessen have made strides in chemoorganotrophic electrofermentation using Cupriavidus necator. By experimenting with different redox mediators, they identified ferricyanide as a key player in enhancing anodic respiration. With the INFORS HT Multitron providing precise environmental control, the team achieved remarkable current densities, offering a promising solution to the challenges of oxygen-driven fermentation systems.
Customer voices
Manfred Sander, Dipl.-Ing. (FH)Specialist Department of Equipment Management, Universitätsklinikum Erlangen
Related articles
See allCleaning an incubator shaker sounds trivial, but it is critical for cultivation success. The good news is that doing the right thing is simple, effective, and can easily be integrated into the routine management of a laboratory.
A plasmid DNA production process was performed comparing conventional Erlenmeyer flasks with LB medium and the Thomson’s Ultra Yield® system. E. coli cells were cultivated in both systems in the INFORS HT Multitron incubator shaker, bacterial growth was monitored, and the plasmids were purified at the end of cultivation. Subsequently, the quality of the isolated plasmids was analyzed by HPLC. The combination of the Ultra Yield® flasks with the enriched Plasmid+® medium and the AirOtop® enhanced seal led to higher cell densities and a 21-fold higher amount of plasmid than in Erlenmeyer shake flasks with LB medium.
The Multitron incubator shaker remains uniquely popular since its launch in 1991. The original concept was to offer maximum shake flask capacity whilst occupying minimum space within the laboratory. A number of other new features were launched alongside the Multitron, and since have become firm favourites with users. Some of the best loved capabilities of the Multitron are listed below.
Cleaning an incubator shaker sounds trivial, but it is critical for cultivation success. The good news is that doing the right thing is simple, effective, and can easily be integrated into the routine management of a laboratory.
A plasmid DNA production process was performed comparing conventional Erlenmeyer flasks with LB medium and the Thomson’s Ultra Yield® system. E. coli cells were cultivated in both systems in the INFORS HT Multitron incubator shaker, bacterial growth was monitored, and the plasmids were purified at the end of cultivation. Subsequently, the quality of the isolated plasmids was analyzed by HPLC. The combination of the Ultra Yield® flasks with the enriched Plasmid+® medium and the AirOtop® enhanced seal led to higher cell densities and a 21-fold higher amount of plasmid than in Erlenmeyer shake flasks with LB medium.
The Multitron incubator shaker remains uniquely popular since its launch in 1991. The original concept was to offer maximum shake flask capacity whilst occupying minimum space within the laboratory. A number of other new features were launched alongside the Multitron, and since have become firm favourites with users. Some of the best loved capabilities of the Multitron are listed below.
Ideal offerings to further optimize your bioprocess workflow
Our global network of experienced technicians is here to help ensure your incubator shakers operate 24/7.
Enhance your laboratory shaker with a wide range of trays, holders, and adhesive mats.
Minimize interruptions and ensure optimal productivity at every step of your bioprocess.
Our global network of experienced technicians is here to help ensure your incubator shakers operate 24/7.
Enhance your laboratory shaker with a wide range of trays, holders, and adhesive mats.
Minimize interruptions and ensure optimal productivity at every step of your bioprocess.