Schüttler System
Celltron
Schüttler System
Celltron
Der perfekte Schüttler als Ergänzung zu Ihrem CO2-Inkubator
Nutzen Sie in Ihrem Labor die Vorteile der Schütteltechnologie, die das Risiko für Ihre Zellen in einem vorhandenen CO2-Inkubator verringert. Der Celltron ist ein kompakter, wirtschaftlicher und energieeffizienter Schüttler, der sich mühelos in Ihren bestehenden Laborraum integrieren lässt.
Vorteile
Der Magnetantrieb mit sanfter Beschleunigung sorgt für minimalen Energieverbrauch und geringe Wärmezufuhr in den statischen Inkubator.
Der Magnetantrieb mit sanfter Beschleunigung sorgt für minimalen Energieverbrauch und geringe Wärmezufuhr in den statischen Inkubator.
Produktspezifikationen
- Passt in Ihren vorhandenen CO2-Inkubator, wobei die Rotation innerhalb der folgenden Grundmaße (B x T x H) bleibt: 450 x 380 x 90 mm
- Externe Steuereinheit, die magnetisch an der Außenseite des Inkubators angebracht wird, mit intuitiver Bedienung, präziser Parametersteuerung und -überwachung sowie Alarmvorrichtungen.
- Mit Sticky Stuff, einer Haftmatte für Ihr Schütteltablar, lassen sich die verschiedensten Kulturgefäße mühelos befestigen.
- Dank verbessertem Sauerstofftransfer und homogener Verfügbarkeit der Nährstoffe im Kulturmedium wird im Vergleich zu statischen Zellkulturen ein deutlich stärkeres und skalierbares Wachstum erzielt.
Produkt Downloads
Ähnliche Publikationen
Alle PublikationenResearchers from the University of São Paulo have developed an innovative two-stage anaerobic digestion process that enhances methane production from sugarcane vinasse. Their approach, which integrates a fermentative-sulfidogenic stage, boosts biogas quality, lowers costs, and eliminates the need for chemical additives. This promising solution could revolutionize bioenergy recovery in sugarcane biorefineries.
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 University of São Paulo have developed an innovative two-stage anaerobic digestion process that enhances methane production from sugarcane vinasse. Their approach, which integrates a fermentative-sulfidogenic stage, boosts biogas quality, lowers costs, and eliminates the need for chemical additives. This promising solution could revolutionize bioenergy recovery in sugarcane biorefineries.
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.
Kundenstimmen
Manfred Sander, Dipl.-Ing. (FH)Specialist Department of Equipment Management, Universitätsklinikum Erlangen
Ähnliche Artikel
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.
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.
Angebote zur weiteren Optimierung Ihrer Bioprozessabläufe
Unsere Laborschüttler zeichnen sich durch ein intelligentes, ergonomisches Design und den Einsatz modernster Technologien aus.
Gesteigerte Leistung Ihres Schüttlers, minimale Ausfallzeiten und maximale Sicherheit.
Erweitern Sie Ihren Laborschüttler mit einer großen Auswahl an Tablaren, Haltern und Haftmatten.
Unsere Laborschüttler zeichnen sich durch ein intelligentes, ergonomisches Design und den Einsatz modernster Technologien aus.
Gesteigerte Leistung Ihres Schüttlers, minimale Ausfallzeiten und maximale Sicherheit.
Erweitern Sie Ihren Laborschüttler mit einer großen Auswahl an Tablaren, Haltern und Haftmatten.