| Description | Creative Biolabs human iPSC-derived cerebral cortical neurons express typical markers of cerebral cortical neurons, such as TUJ1, TBR1, CTIP2, BRN2 and CUX1. They are electrically active and can form functional synapses and neuronal networks in vitro.
Creative Biolabs provides pre-plated neurons thatCreative Biolabs human iPSC-derived cerebral cortical neurons express typical markers of cerebral cortical neurons, such as TUJ1, TBR1, CTIP2, BRN2 and CUX1. They are electrically active and can form functional synapses and neuronal networks in vitro.
Creative Biolabs provides pre-plated neurons that differentiate synchronously with neural stem cells using our fully defined neuron differentiation method. Using our special coating reagent and Neural Maintenance-XF medium, iPSC-derived neurons can be cultured for a long time.
Our expert scientists perform neuron differentiation and supply neurons in a 96-well plate format (with 60 fillings in the center). Electroplated neurons can be measured at any time, saving you time and resources. The iPSC-derived neurons are shipped live so the neurons are not stressed by cryopreservation.... Read More | Researchers at the Creative Biolabs have developed Dunkin Hartley Guinea Pig PBMCs that allows for study in numerous research areas, such as immunology, oncology. The cells can be used for a wide variety of safety assessment and functional assays. | Human astrocytes (HA) are derived from the human cerebral cortex. Astrocytes are the most abundant cells in the central nervous system, where they perform many functions, such as providing mechanical support and nutrition to neurons and removing waste from neurons. Provide signals to endothelial Human astrocytes (HA) are derived from the human cerebral cortex. Astrocytes are the most abundant cells in the central nervous system, where they perform many functions, such as providing mechanical support and nutrition to neurons and removing waste from neurons. Provide signals to endothelial cells; regulate neurogenesis and control synaptic function. With the increasing understanding of the importance of astrocytes in the nervous system, HA has become a useful in vitro model for exploring the functional diversity of astrocytes.... Read More | Creative Biolabs offers a range of recombinant cell lines for Immunotherapy discovery and development. | This product GTVCR-WQ39MR is an effective transcription system suitable for a variety of research, including the in vitro translation, self-amplifying mRNA studies and protein expression. The system was driven by the T7 promoter to efficiently generate mRNA with 30 nt poly(A) tail ecoding antibody This product GTVCR-WQ39MR is an effective transcription system suitable for a variety of research, including the in vitro translation, self-amplifying mRNA studies and protein expression. The system was driven by the T7 promoter to efficiently generate mRNA with 30 nt poly(A) tail ecoding antibody which targeting VEGFA. The vector contains the self-replicating Venezuelan equine encephalitis (VEE) virus RNA replicon, which resulting the mRNA expression at a high level.... Read More |