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1 triggered by the binding of PA4 alone to its cell membrane receptor.
2 gulates the expression of CD44, the major HA cell membrane receptor.
3 ay target genes and the increased binding of cell membrane receptor.
4 multaneous multivalent interactions with the cell membrane receptors.
5 transcriptional regulatory protein linked to cell membrane receptors.
6 s relies on signaling networks controlled by cell membrane receptors.
7 affects how targeting nanoconstructs bind to cell-membrane receptors.
9 her photoactivatable ligands to characterize cell membrane receptors activity, a relevant issue for c
12 polyomavirus JC virus (JCV) is regulated by cell membrane receptors and nuclear transcription factor
13 rmed aminergic GPCRs) belong to the class of cell membrane receptors and share many levels of similar
14 tabolite that can activate G-protein-coupled cell membrane receptors and suggests a functional link b
15 of RA genetic predisposition, which involves cell-membrane receptors and genes in second messenger si
16 the interaction between gp120 and the target cell membrane receptors as a result of steric hindrance.
17 eviously as a plasminogen receptor, is a key cell membrane receptor capable of mediating conversion o
18 ed apoptosis-inducing ligand (TRAIL) and its cell membrane receptors constitute an elaborate signalin
19 complex cellular signaling cascade, in which cell membrane receptors could serve as the upstream trig
20 h will in turn effectively "pull" on engaged cell membrane receptors (e.g., integrins, T cell recepto
22 (EPR-1) is an approximately 62-kDa vascular cell membrane receptor for the clotting protease factor
23 etalloproteinase (ADAM) 22, the postsynaptic cell membrane receptor for the glycoprotein leucine-rich
25 eurotrophin receptor (p75NTR) is a proximate cell membrane receptor glycoprotein that has been identi
26 ssion through extracellular interaction with cell membrane receptors; high-Mr FGF-2 (22-24-kD) acts v
27 lucidating signaling pathways activated by a cell membrane receptor in animal models of CNS disorders
29 lecules, lipid membranes, and proteins (e.g. cell membrane receptors, ion channels) are presented.
30 ty, tPA acts as a cytokine that binds to the cell membrane receptor LRP-1, induces its tyrosine phosp
32 tion of peptide hormones, in the function of cell membrane receptors, or in a transcription factor re
34 17D and FNV to monkey brain and monkey liver cell membrane receptor preparations (MRPs) was investiga
36 or advanced glycation end products (RAGE), a cell membrane receptor, recognizes ligands produced by c
38 (TGF-beta) superfamily signal through unique cell membrane receptor serine-threonine kinases to activ
39 on end products (RAGE) is a highly expressed cell membrane receptor serving to anchor lung epithelia
40 tions, cytokine and growth factor secretion, cell membrane receptor stimulation, "second" signals in
41 integrates downstream effector proteins with cell membrane receptors, such as the epidermal growth fa
46 to prior work on DNA circuits for evaluating cell membrane receptors, the DNA circuits made by our ar
47 ellular calcium channel involved in coupling cell membrane receptors to calcium signal transduction p
48 e, involving classic signaling (IL-6->IL-6R) cell membrane receptors, transsignaling (IL-6->soluble I
49 n be applied to the study of other regulated cell membrane receptors using the ligand-receptor yield
50 triggered by activation of multiple types of cell membrane receptors, which include adenosine A(1) an
51 rrent challenge in life sciences is to image cell membrane receptors while characterizing their speci
52 mplement receptor type 2 (CR2 and CD21) is a cell membrane receptor, with 15 or 16 extracellular shor