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Anti-KLK2 TCR-ABR-α (XW-582) CAR Vector (XS-1122-YF1502)

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All products and services are For Research Use Only and CANNOT be used in the treatment or diagnosis of disease.

The vector of anti-KLK2 TCR-fused Antigen Binding Receptor (TCR-ABR) CAR is constructed for the engineering of T cells to target Mouse KLK2. The T cells are genetically modified through transduction with a lentiviral vector expressing scFv (XW-582) of anti-KLK2 antibody linked to TCRα subunit. The vector product was designed for the discovery and development of cellular therapy against Prostate cancer. The TCR-ABR can effectively reprogram an intact TCR complex to recognize tumor surface antigens. TCR-ABR-T cells are shown to engage the signaling capacity of the entire TCR complex in an HLA-independent manner.

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Details

  • Target
  • KLK2
  • Targeting Cell Type
  • T Cell
  • Targeting Diseases
  • Prostate cancer
  • Vector Name
  • pCDCAR1
  • Vector Length
  • ~8kb
  • Vector Type
  • Lentiviral vector
  • Receptor Construction
  • scFv-TCRα
  • Discription of Signaling Cassetes
  • The scFv used to generate CAR-T cells or single domain antibodies can be fused to the extracellular N-termini of TCRα, TCRβ, CD3γ, CD3δ, or CD3ε subunits, resulting in the activation of target-specific TCR-ABR-T cells. TCR-ABR-T cells have been shown to use the entire TCR complex's signaling capacity in an HLA-independent manner.

Target

  • Clone
  • XW-582
  • Host
  • Rat
  • Target Species
  • Mouse
  • Gene Name
  • Kallikrein-2
  • Synonyms
  • KLK2; KLK2A2; hGK-1; hK2; kallikrein related peptidase 2
  • Introduction
  • This gene encodes a member of the grandular kallikrein protein family. Kallikreins are a subgroup of serine proteases that are clustered on chromosome 19. Members of this family are involved in a diverse array of biological functions. The protein encoded by this gene is a highly active trypsin-like serine protease that selectively cleaves at arginine residues. This protein is primarily expressed in prostatic tissue and is responsible for cleaving pro-prostate-specific antigen into its enzymatically active form. This gene is highly expressed in prostate tumor cells and may be a prognostic maker for prostate cancer risk. Alternate splicing results in both coding and non-coding transcript variants.

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For research use only. Not intended for any clinical use. No products from Creative Biolabs may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative Biolabs.

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