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Jerkmate
https://www.bit.bio/support/shipping-and-storage
bit.bio | Shipping and storage FAQs
Learn about shipping times, costs and how to store your products upon receipt.
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https://www.bit.bio/modelling-disease/huntingtons-disease
Huntington's Disease models | bit.bio
We offer iPSC-derived Huntington’s disease models that enable reproducible recapitulation of the disease in vitro for therapeutic development studies.
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https://www.bit.bio/products/muscle-cells
Human muscle cells | bit.bio
bit.bio offers a variety of human muscle cells for your in vitro research, including wild-type skeletal myocytes and DMD models for disease modelling.
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https://www.bit.bio/resources/protocols/co-culturing-oligodendrocyte-like-cells-glutamatergic-neurons
Co-culturing ioOligodendrocyte-like cells and ioGlutamatergic Neurons | bit.bio
Explore bit.bio's protocol on how to thaw, culture and maintain ioOligodendrocyte-like cells and ioGlutamatergic Neurons
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https://www.bit.bio/news
News | bit.bio
As experts in human synthetic biology, bit.bio is often in the press. Explore our latest news, blogs and podcasts today.
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Synthetic biology for human health | bit.bio
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https://www.bit.bio/products/nerve-cells/glutamatergic-neurons
Human iPSC-derived glutamatergic neurons | bit.bio
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https://www.bit.bio/resources/protocols/stimulation-cytokine-secretion-microglia
Cytokine stimulation and secretion protocol for ioMicroglia | bit.bio
Explore bit.bio's step-by-step protocol for quantifying cytokine secretion to assess inflammatory responses in human iPSC-derived microglia.
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https://www.bit.bio/resources/protocols/co-culturing-motor-neurons-rat-astrocytes-mea-assays
Co-culturing ioMotor Neurons with astrocytes for MEA assays | bit.bio
A step-by-step protocol on how to thaw, culture and maintain ioMotor Neurons. and rat cortical astrocytes for MEA assays.
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https://www.bit.bio/products/custom-disease-model-cells
Custom disease model cells | bit.bio
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https://www.bit.bio/resources
Technical Resources | bit.bio
Explore bit.bio's technical resources, including scientific posters, protocols, publications, webinars, and tools for human iPSC-derived cells.
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https://www.bit.bio/products/assays-and-applications/immunocytochemistry
Immunocytochemistry applications & workflows | bit.bio
Explore immunocytochemistry applications using ioCells to assess cell identity, phenotype, and disease models with consistent, high-quality human cells.
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https://www.bit.bio/platform
Our platform and opti-ox™ - cell programming technology | bit.bio
Learn how our Cell Coding Platform enables the identification of transcription factors, and how opti-ox™ precisely reprograms stem cells with consistency.
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https://www.bit.bio/news/bit.bio-accelerates-global-access-to-human-cells-with-new-pricing-model-and-distribution-hub
bit.bio accelerates global access to human cells with new pricing model and distribution hub
bit.bio lowers ioCells pricing and opens EU hub with next-day delivery, expanding global access to human cells for NAMs research.
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https://www.bit.bio/resources/protocols/culturing-96-well-plates-gabaergic-neurons
Culturing ioGABAergic Neurons in 96-well plates | bit.bio
A step-by-step protocol on how to thaw, culture and maintain ioGABAergic Neurons in 96-well plates.
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