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 at TU Dortmund University have uncovered metabolic bottlenecks in Pseudomonas taiwanensis during growth on d-xylose, using the INFORS HT Multitron Standard incubator shaker. Their findings offer new insights into optimizing the Weimberg pathway for bioprocesses on renewable feedstocks, advancing strain development and bioproduction.
Researchers at Université de Sherbrooke have successfully characterized bacterial cellulose (BC) produced from a novel strain isolated from a kombucha SCOBY. Using the Minitron incubator shaker and an INFORS HT bioreactor, they evaluated the mechanical, thermal, and chemical properties of BC, revealing its potential for applications in biomedical, textile, and cosmetic industries.
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 TU Dortmund University have uncovered metabolic bottlenecks in Pseudomonas taiwanensis during growth on d-xylose, using the INFORS HT Multitron Standard incubator shaker. Their findings offer new insights into optimizing the Weimberg pathway for bioprocesses on renewable feedstocks, advancing strain development and bioproduction.
Researchers at Université de Sherbrooke have successfully characterized bacterial cellulose (BC) produced from a novel strain isolated from a kombucha SCOBY. Using the Minitron incubator shaker and an INFORS HT bioreactor, they evaluated the mechanical, thermal, and chemical properties of BC, revealing its potential for applications in biomedical, textile, and cosmetic industries.
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.
Kundenstimmen
Manfred Sander, Dipl.-Ing. (FH)Specialist Department of Equipment Management, Universitätsklinikum Erlangen
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In the fast-paced world of bioprocessing, having reliable lab equipment is critical for research and process development success. The Multitron incubator shaker has been designed with these demands in mind, offering precision and efficiency that directly address the challenges scientists face in their labs. Whether you are optimizing culture conditions or scaling up processes, the Multitron shaker provides the tools you need to advance your research with confidence.
Gene therapy is a promising approach for treating various genetic disorders and diseases. A critical component of gene therapy is the production of viral vectors, which serve as delivery vehicles for therapeutic genes. Human Embryonic Kidney 293 (HEK293) cells have become a widely used platform for viral vector production due to their efficiency in transfection and ability to support viral replication. However, optimizing HEK293 cell cultures for large-scale production of viral vectors remains a challenge in making gene therapies more accessible and cost-effective.
Simple actions can make a lot of difference to the outcome of your shake flasks cultures. Some beneficial ones have been covered in previous articles, however, common practices can also be a barrier to effective optimization. This article will explain why these common practices count as sins against your shake flask culture and what you can do to overcome them.
In the fast-paced world of bioprocessing, having reliable lab equipment is critical for research and process development success. The Multitron incubator shaker has been designed with these demands in mind, offering precision and efficiency that directly address the challenges scientists face in their labs. Whether you are optimizing culture conditions or scaling up processes, the Multitron shaker provides the tools you need to advance your research with confidence.
Gene therapy is a promising approach for treating various genetic disorders and diseases. A critical component of gene therapy is the production of viral vectors, which serve as delivery vehicles for therapeutic genes. Human Embryonic Kidney 293 (HEK293) cells have become a widely used platform for viral vector production due to their efficiency in transfection and ability to support viral replication. However, optimizing HEK293 cell cultures for large-scale production of viral vectors remains a challenge in making gene therapies more accessible and cost-effective.
Simple actions can make a lot of difference to the outcome of your shake flasks cultures. Some beneficial ones have been covered in previous articles, however, common practices can also be a barrier to effective optimization. This article will explain why these common practices count as sins against your shake flask culture and what you can do to overcome them.
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.