PTPRS Easy KO Kit

Name: PTPRS Easy KO Kit
SKU: CC-1177
Availability: InStock

For research use only. Not intended for any clinical use.

Cat. No. : CC-1177

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Product Information

Gene Information

Cat. No.	CC-1177
Description	A complete kit for efficient gene knockout in mammalian cells, combining chemically synthesized sgRNAs with Cas9 RNPs to induce targeted DNA cleavage and generate frameshift mutations or deletions. All essential reagents for transfection and knockout validation are included for rapid, high-efficiency gene disruption.
Gene Abbr	PTPRS
Species	Human
Ensembl ID	ENSG00000105426
NCBIGene ID	5802
Uni Prot ID	Q13332
Features	All-in-One workflow from gene editing to knockout validation for users with no prior experience. Pre-validated sgRNAs and primers for rapid setup. Streamlined experiment handling. CRISPR RNP method ensures precise and efficient gene knockout.
Applications	This kit enables in vitro gene knockout in human-derived cells using chemically synthesized sgRNAs and Cas9-gRNA RNP complexes. Transfected RNPs cleave early exons of the target gene, inducing deletions or frameshift mutations for efficient and rapid knockout.
Reactions	5–10 reactions per target gene
Kit Components	2–3 chemically synthesized sgRNAs (200pmol each) 3 PCR/Sequencing primers (500pmol each) LM cell lysate (500µL) Cas9 protein (12µg) LM RNP transfection reagent (50µL)
Storage	Store at -80°C for up to 1 year or at -20°C for up to 6 months. Avoid repeated freeze-thaw cycles.

Target Gene

PTPRS

Background

The protein encoded by this gene is a member of the protein tyrosine phosphatase (PTP) family. PTPs are known to be signaling molecules that regulate a variety of cellular processes including cell growth, differentiation, mitotic cycle, and oncogenic transformation. This PTP contains an extracellular region, a single transmembrane segment and two tandem intracytoplasmic catalytic domains, and thus represents a receptor-type PTP. The extracellular region of this protein is composed of multiple Ig-like and fibronectin type III-like domains. Studies of the similar gene in mice suggested that this PTP may be involved in cell-cell interaction, primary axonogenesis, and axon guidance during embryogenesis. This PTP has been also implicated in the molecular control of adult nerve repair. Four alternatively spliced transcript variants, which encode distinct proteins, have been reported. [provided by RefSeq, Jul 2008]

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