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Incubator shaker

Incubator shaker

Introducing our state-of-the-art Incubator Shaker, designed for the precise and efficient cultivation of biological substances in a clinical setting. This versatile piece of equipment features a temperature-controlled incubation chamber with a spacious interior, ideal for accommodating a variety of sample sizes. The built-in shaker mechanism allows for uniform mixing and agitation of cell cultures, making it an essential tool for molecular biology, microbiology, and biomedical research. With advanced digital controls and a user-friendly interface, this incubator shaker offers unparalleled reliability and ease of use. Trust in our Incubator Shaker to provide optimal conditions for cell growth and viability, facilitating the success of your medical experiments and analyses.
  • Applications

    • Microbial Culture Growth: Incubator shakers are commonly used in microbiology laboratories to cultivate microorganisms such as bacteria, yeast, and fungi. The shaker provides optimal conditions for growth by maintaining a controlled temperature, humidity, and agitation. This is essential for various microbiological studies, including research on microbial physiology, genetics, and drug development.
    • Cell Culture: In cell biology and biotechnology, incubator shakers are used for growing mammalian cells, insect cells, and plant cells in culture. These cells are often used in research, drug discovery, and bioproduction processes such as the production of recombinant proteins and vaccines. The shaker ensures uniform mixing of nutrients and gases, promoting cell proliferation and maintaining cell viability.
    • Enzyme Kinetics Studies: Incubator shakers are employed in biochemical research to study enzyme kinetics and biochemical reactions. By controlling temperature and agitation, researchers can investigate the effects of various factors such as substrate concentration, pH, and enzyme inhibitors on enzyme activity. This information is crucial for understanding enzyme mechanisms and designing enzyme-based processes in biotechnology and medicine.
    • Protein Expression and Purification: In molecular biology and protein biochemistry, incubator shakers play a vital role in the expression and purification of recombinant proteins. Researchers use shaker cultures to express proteins in bacterial, yeast, or insect cell systems. The shaker ensures efficient protein production by providing optimal growth conditions and oxygenation. Additionally, it facilitates protein purification processes such as affinity chromatography and size exclusion chromatography by maintaining the stability of protein samples.
    • DNA and RNA Hybridization: In molecular genetics and genomics, incubator shakers are utilized for DNA and RNA hybridization experiments. These experiments involve the annealing of complementary nucleic acid strands to form double-stranded molecules. The shaker provides gentle agitation to ensure thorough mixing of nucleic acid probes and target molecules, enhancing the efficiency of hybridization reactions. This technique is widely used in applications such as Southern blotting, Northern blotting, and in situ hybridization for gene expression analysis and nucleic acid detection.
  • Features

    • High capacity in a small footprint: for example, 4x 5 L or 2x 6 L flasks on universal platform; device footprint 4731 cm2 /733 in2 (63.5 cm/25 in width, 74.5 cm/29.3 in depth)
    • Ergonomical and safe interface handling: Top mounted controls and display make bending down unnecessary during handling, avoids accidental parameter changes, and can be reached easily even in a double stack
    • Easy to clean: Spill diverter and drainable built-in spill pan with rounded corners protect the drive from accidental spills (can be used as a water reservoir to reduce sample evaporation); airflow UV-germicidal light optional
    • Lab position flexibility: Lab position on or under bench, 2x stackable
    • Parallel static cultivation: One height adjustable static shelf included, optional culture drawer and additional shelves available
    • Sample evaporation protection: Bottom spill pan usable as water reservoir; optional culture drawer, for Agar plates, for example
    • Visual sample control: Large viewing window and internal light provide easy viewing of samples without the need to open the door
    • Reliable 24/7 with high loads: Proven and tested Innova triple eccentric counterbalanced drive (three weight-supporting shafts), max. load 15 kg
    • Programmability: Continuous, timed, or multi-step programming (15 steps), store up to four programs
    • Options and Accessories: Orbit 19 or 25 mm, photosynthetic light bank, UV germicidal light, culture drawer for evaporation protection of Agar plates, additional static shelves (one included), humidity monitoring, remote monitoring 

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