| Quantity | 20 nmol, 50 nmol, 100 nmol, 200 nmol | 1 | ~0.6x10^6 cells per 1ml of freezing medium (vial) | 1.5 million cells & Neural Plating-XF Medium | 20 nmol, 50 nmol, 100 nmol, 200 nmol |
| Description | The product SIRGT98134WQ-2MOE is a type of small interfering RNA (siRNA) that targets Mavs gene and regulates the expression of gene. The siRNA interferes with the expression of Mavs gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The siRNAThe product SIRGT98134WQ-2MOE is a type of small interfering RNA (siRNA) that targets Mavs gene and regulates the expression of gene. The siRNA interferes with the expression of Mavs gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The siRNA is designed with 2'-O-methoxyethyl (2'-MOE) modification to provide increased stability, increased specificity and reduced immunogenicity. It has potential applications in RNA interference (RNAi) and gene therapy development.... Read More | Cynomolgus monkey is widely used in medical experiments, especially those associated with neuroscience and disease. This product is isolated from normal Cynomolgus monkey prostate tissue. Cells are negative for bacteria, yeast, fungi, mycoplasma, and can be used for a variety of tests and assays Cynomolgus monkey is widely used in medical experiments, especially those associated with neuroscience and disease. This product is isolated from normal Cynomolgus monkey prostate tissue. 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 | 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 | Human iPSC-Derived Neural Stem Cells that have been genetically edited using CRISPR-Cas9 technology to introduce the G2019S mutation (GGC>AGC) in the LRRK2 gene. This line is homozygous for the G2019S mutation so both alleles contain the mutation.
The G2019S mutation in LRRK2 has been implicated in Human iPSC-Derived Neural Stem Cells that have been genetically edited using CRISPR-Cas9 technology to introduce the G2019S mutation (GGC>AGC) in the LRRK2 gene. This line is homozygous for the G2019S mutation so both alleles contain the mutation.
The G2019S mutation in LRRK2 has been implicated in autosomal-dominant familial Parkinson's disease with late onset (Fonzo et al., 2006, Thaler et al., 2009). The G2019S mutation increases the kinase activity of LRRK2 causing increased autophosphorylation and substrate phosphorylation that may affect neuronal cell health in Parkinson's disease patients (West et al., 2005).... Read More | The product SIRGT00060WQ is a type of small interfering RNA (siRNA) that targets ADA gene and regulates the expression of gene. The siRNA interferes with the expression of ADA gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. It has potentialThe product SIRGT00060WQ is a type of small interfering RNA (siRNA) that targets ADA gene and regulates the expression of gene. The siRNA interferes with the expression of ADA gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. It has potential applications in RNA interference (RNAi) and gene therapy development.... Read More |