ライフサイエンスコーパス: neurotrophic factor receptor

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1 ts known role as a co-ligand for the ciliary neurotrophic factor receptor.

2 notypic differences, including expression of neurotrophic factor receptors.

3 Ciliary neurotrophic factor receptor alpha (CNTFR alpha) is esse

4 xpression of CNTF and its receptors, ciliary neurotrophic factor receptor alpha (CNTFRalpha) and leuk

5 Ciliary neurotrophic factor receptor alpha (CNTFRalpha) is the l

6 Ciliary neurotrophic factor receptor alpha subunit (CNTFRalpha)

7 to antagonize signaling through the ciliary neurotrophic factor receptor-alpha (CNTFRalpha).

8 get-derived receptor glial cell line-derived neurotrophic factor receptor alpha1 (GFRalpha1) can also

9 Protein tyrosine phosphatases inactivate neurotrophic factor receptors and downstream intracellul

10 r (neurturin via the glial cell line-derived neurotrophic factor receptor) and a transmitter enzyme (

11 that a novel Trk-interacting protein, NTRAP (neurotrophic factor receptor-associated protein), plays

12 T1, a truncated isoform of the brain-derived neurotrophic factor receptor (BDNF), contributes to glio

13 ophin-like cytokine factor 1 (CLCF1)-ciliary neurotrophic factor receptor (CNTFR) signaling axis in l

14 he receptor for CLF-1/CLC signaling, ciliary neurotrophic factor receptor (CNTFR), was expressed only

15 CE ciliary neurotrophic factor receptor (CNTFRalpha) and CNTF (0.83

16 intron of the alpha component of the ciliary neurotrophic factor receptor (CNTFRalpha) gene for the h

17 herapeutics is abolished in mice lacking the neurotrophic factor receptor glial cell line-derived neu

18 actor and the alpha-component of the ciliary neurotrophic factor receptor is demonstrated in the opti

19 lso found that death receptor 6, but not p75 neurotrophic factor receptor, is required for transition

20 hermore, they express a unique complement of neurotrophic factor receptors, namely, the trkC receptor

21 ned the spatio-temporal relationship between neurotrophic factor receptor (NTF-R) expression and moto

22 ess stem cell markers, suggesting that these neurotrophic factor receptors play a role in cell fate s

23 hat ShcD binds to active Ret, TrkA, and TrkB neurotrophic factor receptors predominantly via its phos

24 Here we show that the neurotrophic factor receptor RET (rearranged during tran

25 in expression of the glial cell line-derived neurotrophic factor receptor Ret at postnatal stages, as

26 nregulation is necessary for expression of a neurotrophic factor receptor ret, which is required for

27 Zebrafish carrying a null mutation in a neurotrophic factor receptor, Ret, displayed defects in

28 This calcium flux is accompanied by p75 neurotrophic factor receptor-Rho-actin-dependent expansi

29 axon in response to trophic withdrawal, p75 neurotrophic factor receptor-RhoA signaling governs the

30 owth factor (NGF) receptor and brain-derived neurotrophic factor receptor signaling through CREB requ

31 sed the level and internalization of TrkB, a neurotrophic factor receptor that mediates neurogenesis

32 s express the alpha-component of the ciliary neurotrophic factor receptor, the results of the present

33 v3.2 in a subset of neurons positive for the neurotrophic factor receptor TrkB (NTRK2 gene).

34 ress the catalytic form of the brain-derived neurotrophic factor receptor TrkB [full-length TrkB (Trk

35 e effects are mediated via the brain-derived neurotrophic factor receptor TrkB, and whether they are

36 pression and activation of the brain-derived neurotrophic factor receptor tyrosine receptor kinase B.

37 of other important cargoes, such as the p75 neurotrophic factor receptor was minimally altered in mu

38 subunit of interleukin-12 and to the ciliary neurotrophic factor receptor, whose expression is induce