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hTNFR2/hPD-1

Strain Name：C57BL/6Smoc-Tnfrsf1b^{em2(hTNFRSF1B)}Pdcd1^{em1(hPDCD1) /Smoc}
Strain State：Embryo cryopreservation | Cat. NO.：NM-HU-210407

hTNFRSF1B(NM-HU-190010) was crossed with hPD-1（NM-HU-00015）to generate hTNFRSF1B/hPD-1 mice

hTNFR2/hIL2RA

Strain Name：C57BL/6Smoc-Tnfrsf1b^{em2(hTNFRSF1B)}Il2rat^{m1(hIL2RA)Smoc}
Strain State：Embryo cryopreservation | Cat. NO.：NM-HU-210408

hTNFRSF1B(NM-HU-190010) was crossed with hIL2RA(NM-HU-190064) to generate hTNFRSF1B/hIL2RA mice.

hTNFRSF17/hCD3EDG(BALB/c)

Strain Name：BALB/cAnSmoc-Tnfrsf17^{em1(hTNFRSF17)}Cd3etm1(hCD3E)Cd3dtm1(hCD3D)Cd3gtm1(hCD3G)^Smoc
Strain State：Developing | Cat. NO.：NM-XA-250066

The hCD3EDG(BALB/c)(NM-HU-220122) was crossed with hTNFRSF17(BALB/c)(NM-HU-241173) to generate hTNFRSF17/hCD3EDG(BALB/c) mice.

Ngfr-KO(SD)

Strain Name：SD-Ngfr^em1Smoc Strain State：Embryo cryopreservation | Cat. NO.：NR-KO-210150

Exon2-3 of Ngfr gene was deleted to generate Ngfr knockout rats.

CT26-hTNFRSF1B

Strain Name：CT26-Tnfrsf1b^{em1(hTNFRSF1B)Smoc}
Strain State ： Validation of tumorigenic capacity completed |  Cat. NO.：NMC-230002

TNFRSF1B gene humanized CT26 cell line

CT26-hTNFRSF1B(BSD)

Strain Name：CT26-hTNFRSF1B(BSD)
Strain State ： Validation of target gene expression completed |  Cat. NO.：NMC-230079

TNFRSF1B gene humanized CT26 cell line

MC38-hTNFR2

Strain Name：MC38-Tnfrsf1b^{em1(hTNFR2)Smoc}
Strain State ： Validation of tumorigenic capacity completed |  Cat. NO.：NMC-230001

TNFRSF1B gene humanized MC38 cell line

Osteoporosis

osteoporosis gene osteoporosis diseases Tnfrsf11b

Tnfrsf11b (Opg) knockout mice were generated through homologous recombination and supplied by Shanghai Research Center for Model Organisms. This mouse model, which is referred to as the "osteoporotic mouse", shows a typical phenotype of osteoporosis and arterial calcification, and Therefore, this animal model is ideal for drug screening and evaluation for the treatment of "human osteoporosis", in gene therapy of osteoporosis, as well as in the research on the mechanisms of interaction between osteoclasts and osteoblasts.

Why IL-2 Still Holds Promise in Therapeutics of Cancer and Autoimmunity