PPP5C Knockout cell line (HEK293)

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Ocular, Otolaryngologic and Oral System

Skeleton, Articulus, Soft Tissue, Derma System

Ocular, Otolaryngologic and Oral System

Skeleton, Articulus, Soft Tissue, Derma System

Ocular, Otolaryngologic and Oral System

Skeleton, Articulus, Soft Tissue, Derma System

Ocular, Otolaryngologic and Oral System

Skeleton, Articulus, Soft Tissue, Derma System

Cell Monoclonal Culture Medium

Monoclone Genotype Validation Kit

PPP5C Knockout cell line (HEK293) Order

Catalog#：YKO-H737

Price (USD)：-

Size： 1*10^6

Instruction：

Exclusive Red Cotton system（en.rc-crispr.com）was used to design the sgRNA fragment knockout strategy. Two sgRNAs were constructed into CRISPR-U™ plasmid which will be subsequentially transfected into cells by electroporation/virus method. And the single-cell clones were isolated by the limited dilution method and the Monoclone Genotype Validation Kit (Cat: YK-MV-1000) was used for cell lysis and PCR amplification on the single-cell clones, and then the genotype was verified by Sanger sequencing. Upon passing the final validation, the positive clones were expanded and cryopreserved.

Detailed Product Information Recommended Companion Products

Cell Info

Catalog	YKO-H737
Cell line	PPP5C Knockout cell line (HEK293)	Cell Type	Human Embryonic Kidney Cell Line
Morphology	Epithelial-like, adherent	Passage ratio	1:4~1:6
Culture method	90%DMEM+10% FBS
Cryopreservation solution	50%DMEM+40% FBS+10%DMSO
Special Note

STR Validation

Gene Information

Official symbol

PPP5C

Gene id

5536

Official full symbol

protein phosphatase 5 catalytic subunit

Also known as

PP5, PPP5, PPT

This gene encodes a serine/threonine phosphatase which is a member of the protein phosphatase catalytic subunit family. Proteins in this family participate in pathways regulated by reversible phosphorylation at serine and threonine residues; many of these pathways are involved in the regulation of cell growth and differentiation. The product of this gene has been shown to participate in signaling pathways in response to hormones or cellular stress, and elevated levels of this protein may be associated with breast cancer development. Alternative splicing results in multiple transcript variants.