Shaker system
Celltron
Shaker system
Celltron
The perfect lab shaker addition to your CO2 incubator
Introduce your lab to the benefits of shaking technology that mitigates risks to your cells in an existing CO2 incubator. The Celltron is a compact, economical, and energy efficient shaker that can be easily incorporated into your existing lab space.
Advantages
The magnetic drive with gentle acceleration provides minimum energy consumption and low heat-input into the static incubator.
The magnetic drive with gentle acceleration provides minimum energy consumption and low heat-input into the static incubator.
Product specifications
- Fits in your existing CO2 incubator with the rotation staying within the base dimensions (W x D x H): 450 x 380 x 90 mm
- External control unit, magnetically mounted on the outside of the incubator with intuitive operation, precise parameter control and monitoring, and alarms.
- Easily fasten a variety of culture vessels with Sticky Stuff, an adhesive matting for your shaker tray
- Get significantly better, scalable growth compared to static cell cultures with improved oxygen transfer and homogeneous availability of the nutrients in the culture medium.
Product downloads
Publications associées
Toutes les publicationsThis study by researchers from the University of Auckland delves into the complex formation of 3-sulfanylhexan-1-ol (3SH) and 3-sulfanylhexyl acetate (3SHA), two essential contributors to white wine aroma. Using isotopically labeled analogues, the team uncovered how non-volatile precursors present in grapes convert to these key aroma compounds during fermentation. This research offers fresh insights into wine chemistry and the role of specific precursors in enhancing desirable wine aromas.
A study from CBMA-University of Minho highlights the need for diverse sampling strategies in monitoring marine non-indigenous species (NIS). Using five sample types, including hard and artificial substrates, water, and zooplankton, researchers identified 628 species, with five NIS potentially recorded in Portugal for the first time. Discover how this research advances marine biodiversity surveillance.
Researchers from the Department of Obstetrics, Gynecology, and Reproductive Sciences at the University of California, San Francisco (UCSF), have developed a high-throughput yeast assay to quickly assess the reproductive toxicity of chemicals. This innovative approach tested 179 environmental chemicals, identifying 57 with reproductive effects, and offers a promising alternative to traditional animal testing. Explore how this method could revolutionize chemical safety evaluations.
This study by researchers from the University of Auckland delves into the complex formation of 3-sulfanylhexan-1-ol (3SH) and 3-sulfanylhexyl acetate (3SHA), two essential contributors to white wine aroma. Using isotopically labeled analogues, the team uncovered how non-volatile precursors present in grapes convert to these key aroma compounds during fermentation. This research offers fresh insights into wine chemistry and the role of specific precursors in enhancing desirable wine aromas.
A study from CBMA-University of Minho highlights the need for diverse sampling strategies in monitoring marine non-indigenous species (NIS). Using five sample types, including hard and artificial substrates, water, and zooplankton, researchers identified 628 species, with five NIS potentially recorded in Portugal for the first time. Discover how this research advances marine biodiversity surveillance.
Researchers from the Department of Obstetrics, Gynecology, and Reproductive Sciences at the University of California, San Francisco (UCSF), have developed a high-throughput yeast assay to quickly assess the reproductive toxicity of chemicals. This innovative approach tested 179 environmental chemicals, identifying 57 with reproductive effects, and offers a promising alternative to traditional animal testing. Explore how this method could revolutionize chemical safety evaluations.
Customer voices
Manfred Sander, Dipl.-Ing. (FH)Specialist Department of Equipment Management, Universitätsklinikum Erlangen
Related publications
All publicationsThis study by researchers from the University of Auckland delves into the complex formation of 3-sulfanylhexan-1-ol (3SH) and 3-sulfanylhexyl acetate (3SHA), two essential contributors to white wine aroma. Using isotopically labeled analogues, the team uncovered how non-volatile precursors present in grapes convert to these key aroma compounds during fermentation. This research offers fresh insights into wine chemistry and the role of specific precursors in enhancing desirable wine aromas.
A study from CBMA-University of Minho highlights the need for diverse sampling strategies in monitoring marine non-indigenous species (NIS). Using five sample types, including hard and artificial substrates, water, and zooplankton, researchers identified 628 species, with five NIS potentially recorded in Portugal for the first time. Discover how this research advances marine biodiversity surveillance.
Researchers from the Department of Obstetrics, Gynecology, and Reproductive Sciences at the University of California, San Francisco (UCSF), have developed a high-throughput yeast assay to quickly assess the reproductive toxicity of chemicals. This innovative approach tested 179 environmental chemicals, identifying 57 with reproductive effects, and offers a promising alternative to traditional animal testing. Explore how this method could revolutionize chemical safety evaluations.
This study by researchers from the University of Auckland delves into the complex formation of 3-sulfanylhexan-1-ol (3SH) and 3-sulfanylhexyl acetate (3SHA), two essential contributors to white wine aroma. Using isotopically labeled analogues, the team uncovered how non-volatile precursors present in grapes convert to these key aroma compounds during fermentation. This research offers fresh insights into wine chemistry and the role of specific precursors in enhancing desirable wine aromas.
A study from CBMA-University of Minho highlights the need for diverse sampling strategies in monitoring marine non-indigenous species (NIS). Using five sample types, including hard and artificial substrates, water, and zooplankton, researchers identified 628 species, with five NIS potentially recorded in Portugal for the first time. Discover how this research advances marine biodiversity surveillance.
Researchers from the Department of Obstetrics, Gynecology, and Reproductive Sciences at the University of California, San Francisco (UCSF), have developed a high-throughput yeast assay to quickly assess the reproductive toxicity of chemicals. This innovative approach tested 179 environmental chemicals, identifying 57 with reproductive effects, and offers a promising alternative to traditional animal testing. Explore how this method could revolutionize chemical safety evaluations.
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 laboratory shakers stand out for their intelligent, ergonomic design and utilization of the latest technologies.
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.
Our laboratory shakers stand out for their intelligent, ergonomic design and utilization of the latest technologies.
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.