All products and services are For Research Use Only and CANNOT be used in the treatment or diagnosis of disease.
The Hy.1B11 TCR originated from a patient with relapsing– remitting MS and was specific for a peptide from MBP (res. 85–99) bound to HLA-DQ1 (DQ1; DQA1*0102, DQB1*0502). It was showed that the human Hy.1B11 T cell clone was not only activated by MBP but also by four peptides from human pathogens that were quite distinct from MBP and each other. Previous studies also provided evidence for in vivo expansion of T cells expressing the Hy.1B11 TCR: the same α and β chain sequences were isolated from three independent clones (originating from two different blood samples drawn 13 months apart). Such in vivo expansion may have been caused by recognition of a crossreactive antigen or MBP. The structure of Hy.1B11 TCR bound to DQ1/MBP peptide revealed a binding mode in which the TCR was strongly tilted relative to the DQ1/peptide surface.
There are currently no customer reviews or questions for Human anti-UL15 T cell receptor (Hy.1B11), pCDTCR1 (TCR-YC1270). Click the button below to contact us or submit your feedback about this product.
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.
For any technical issues or product/service related questions, please leave your information below. Our team will contact you soon.
The latest newsletter to introduce the latest breaking information, our site updates, field and other scientific news, important events, and insights from industry leaders
LEARN MORE NEWSLETTERCellRapeutics™ In Vivo Cell Engineering: One-stop in vivo T/B/NK cell and macrophage engineering services covering vectors construction to function verification.
LEARN MORE SOLUTIONSilence™ CAR-T Cell: A novel platform to enhance CAR-T cell immunotherapy by combining RNAi technology to suppress genes that may impede CAR functionality.
LEARN MORE NOVEL TECHNOLOGYCanine CAR-T Therapy Development: From early target discovery, CAR design and construction, cell culture, and transfection, to in vitro and in vivo function validation.
LEARN MORE SOLUTION