| Description | The majority of cell-free protein expression systems are generally derived from cell extracts, which usually contain nonspecific proteases and nucleases that have negative effects on protein synthesis. In addition, such unpredictable activities may also interfere with downstream assays. Completely The majority of cell-free protein expression systems are generally derived from cell extracts, which usually contain nonspecific proteases and nucleases that have negative effects on protein synthesis. In addition, such unpredictable activities may also interfere with downstream assays. Completely free from unwanted/uncharacterized cellular components, the PURE system introduces a much cleaner background. Magic™ PURE protein expression is a novel cell-free transcription/translation system reconstituted from the purified components necessary for E.coli translation. The procedure can be performed in a single reaction tube from RNA transcription to protein synthesis. With minimal nuclease and protease activity, Magic™ Cell-Free PURE protein expression kit preserves the integrity of DNA and RNA templates/complexes and results in proteins that are free of modification and degradation. Transcription and translation are carried out in a single tube reaction. This in vitro cell-free expression system provides the benefits of microliter scale reactions and speed. With results available in a few hours, the kit saves valuable laboratory time and is ideal for high throughput technologies.... Read More | Cynomolgus monkey is widely used in medical experiments, especially those associated with neuroscience and disease. This product is isolated from tissue of Cynomolgus monkey. Cells are negative for bacteria, yeast, fungi, mycoplasma, and can be used for a variety of tests and assays such as cell-Cynomolgus monkey is widely used in medical experiments, especially those associated with neuroscience and disease. This product is isolated from tissue of Cynomolgus monkey. Cells are negative for bacteria, yeast, fungi, mycoplasma, and can be used for a variety of tests and assays such as cell-cell interaction, adhesion, migration, PCR, Western blot, immunoprecipitation, immunofluorescent staining, immunofluorescent flow cytometry, or generating cell derivatives for desired research applications.... Read More | 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 | iNeu™ human dopaminergic neurons are derived from human dermal cells using a non-integrated induced pluripotent stem cell (iPSC) line under fully defined proprietary induction and maturation conditions. iNeu™ cells are plated in a monolayer when cultured, are branched, and express iNeu™ human dopaminergic neurons are derived from human dermal cells using a non-integrated induced pluripotent stem cell (iPSC) line under fully defined proprietary induction and maturation conditions. iNeu™ cells are plated in a monolayer when cultured, are branched, and express biomarkers such as beta3-Tuj (neurons), tyrosine hydroxylase (TH) and dopamine transporter (DAT). iNeu™ can be used under mature conditions, co-culture conditions (used with astrocytes or other neuronal subtypes), and short-term functional characterization studies.... Read More | Rat Schwann cells (RSC) are the main glial cells in the peripheral nervous system, providing physical and chemical support for neurons. Myelin Schwann cells form an insulating sheath around neuron cell bodies (sensory ganglia) and fibers (sensory nerves and motor neurons). Regular exposure of the Rat Schwann cells (RSC) are the main glial cells in the peripheral nervous system, providing physical and chemical support for neurons. Myelin Schwann cells form an insulating sheath around neuron cell bodies (sensory ganglia) and fibers (sensory nerves and motor neurons). Regular exposure of the axon membrane to the extracellular space (myelin sheath space) at the Raniver node allows the action potential to propagate quickly along the axon. RSC is important for the morphology, survival and growth of axons and neurons. Studies have also shown that Schwann cells can promote neuronal recovery and experimental spinal cord regeneration.... Read More |