| Description | Creative Biolabs offers a range of recombinant cell lines for Immunotherapy discovery and development. | Researchers at the Creative Biolabs have developed BALB/c Mouse 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. | The Creative Biolabs footprint-free human iPS (induced pluripotent stem) cell line carrying the APOE-ε2 variant was derived from Creative Biolabs' syngeneic iPSC line (catalog number NCL-2103-P91) through advanced genome editing tools. The results confirmed that iPS46 is a homozygous line with The Creative Biolabs footprint-free human iPS (induced pluripotent stem) cell line carrying the APOE-ε2 variant was derived from Creative Biolabs' syngeneic iPSC line (catalog number NCL-2103-P91) through advanced genome editing tools. The results confirmed that iPS46 is a homozygous line with stable homozygous transformation with Cys112 (TGC) from Arg112 (CGC) and Cys158 (TGC) from Arg158 (CGC) in APOE gene. The morphology of this human iPS cell line is similar to Human ES cells are the same. They also express pluripotency markers TRA-1-60, SSEA-3 and Oct4, and show strong endogenous alkaline phosphatase activity.
feature: Derived from a single iPSC clone Have the same genetic background Ready-made-simply thaw the cells and inoculate them in a serum-free, feeder-free culture No genetic modification and no virus Shows the expression of pluripotency markers and endogenous alkaline phosphatase activity... Read More | Creative Biolabs Human iPSC-Sensory Neuron Progenitors are derived from integration-free iPSCs and have been differentiated to neurons using small molecules. We offer a fully optimized cell culture system including tailored Sensory Maintenance Medium and coating reagents to promote the viability andCreative Biolabs Human iPSC-Sensory Neuron Progenitors are derived from integration-free iPSCs and have been differentiated to neurons using small molecules. We offer a fully optimized cell culture system including tailored Sensory Maintenance Medium and coating reagents to promote the viability and maturation of sensory neurons for endpoint assays on glass or plastic.
Our iPSC-derived sensory neurons express several voltage-gated sodium ion channels and transient receptor potential (TRP) ion channels that play a key role in nociception. These include sodium ion channels Nav1.7 and the DRG-specific, TTX-resistant channels, Nav1.8 and Nav1.9 as well as the temperature-sensitive, TRPV1 and TRPM8, and TRPA1, a sensor of pungency, bitterness and cold.
Creative Biolabs iPSC-Derived Sensory Neuron Progenitors are available in large batch sizes for reliable and consistent results in high-throughput screening assays. The cells are also suitable for investigating disorders of the peripheral nervous system and chronic pain as well as drug targets for pain relief.... Read More | The product SIRGT99541WQ-LNA is a type of small interfering RNA (siRNA) that targets A2m gene and regulates the expression of gene. The siRNA interferes with the expression of A2m gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The siRNA isThe product SIRGT99541WQ-LNA is a type of small interfering RNA (siRNA) that targets A2m gene and regulates the expression of gene. The siRNA interferes with the expression of A2m gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The siRNA is systematically modified with the synthetic RNA-like high affinity nucleotide analogue, Locked Nucleic Acid (LNA), to improve its bio-stability, specificity and efficiency. It has potential applications in RNA interference (RNAi) and gene therapy development.... Read More |