RF
+
RAGE Receptor illustration
RF
+
RAGE Receptor illustration
RF
+
RAGE Receptor illustration
RF
+
RAGE Receptor illustration
RF
+
RAGE receptors in membrane illustration
RF
+
RAGE receptors in membrane illustration
RF
+
RAGE receptors in membrane illustration
RF
+
RAGE receptors in membrane illustration
RM
+
Retinal cyclic nucleotide-gated channel illustration
RF
+
Illustration of an activated receptor for advanced glycation endproducts (RAGE) embedded in a cell membrane This transmembrane protein belongs to the
RF
+
RAGE receptor illustration
RF
+
Raf-MEK-ERK pathway illustration
RF
+
Illustration of a cell membrane showing the proteins involved in the Raf-MEK-ERK or MAPKERK pathway The signal cascade begins when epidermal growt
RF
+
B cell receptor dimer illustration
RF
+
B cell receptor dimer illustration
RF
+
B cell receptor illustration
RF
+
Illustration of B cell receptor on the surface of a B cell (purple and orange phospholipid bilayer) B cells also known as B lymphocytes are a type o
RF
+
Somatostatins binding to somatostatin receptor illustration
RF
+
Somatostatin binding to somatostatin receptor illustration
RF
+
Somatostatin hormone molecules illustration
RF
+
Engineered T-cell attacking a leukaemia cell illustration
RF
+
Chimeric antigen receptor (CAR) therapy illustration
RF
+
Chimeric antigen receptor (CAR) therapy illustration
RF
+
Chimeric antigen receptor (CAR) therapy illustration
RF
+
Chimeric antigen receptor (CAR) therapy illustration
RF
+
Molecular model of four G-protein-coupled receptors (GPCRs) From left to right the GPCRs are; rhodopsin which is activated by absorbing light T-cel
RF
+
G protein-coupled receptors molecular model
RF
+
Activation of rhodopsin by light molecular model
RF
+
Molecular model showing the activation of rhodopsin by light in a photoreceptor cell Rhodopsin (purple top centre) is a light sensitive G-protein c
RF
+
Activation of rhodopsin by light molecular model
RF
+
Activation of rhodopsin by light molecular model
RF
+
GABA-B receptor activation molecular model
RF
+
GABA B receptor binding to baclofen molecular model
RF
+
GABA-B receptor binding to baclofen molecular model
RF
+
Setmelanotide anti-obesity drug molecular mode
RF
+
Setmelanotide anti-obesity drug molecular mode
RF
+
T cell receptor activation molecular model
RM
+
Von Willebrand factor (vWF) Illustration of research being carried out into vWF a glycoprotein found in blood plasma The protein is attached to two
RM
+
Cell signalling illustration
RM
+
Cell signalling illustration
RM
+
Cell signalling illustration Signalling molecules (blue spheres) secreted by one cell bind to receptors on the membrane of a nearby cell This trigg
RM
+
Wnt signalling pathways illustration
RF
+
Enkephalin binding to opioid receptor Computer illustration of enkephalin molecules (orange) binding to delta-opioid receptors (grey) in a cell membr
RF
+
Illustration of a T cell receptor in a cell membrane T lymphocytes or T cells are a type of white blood cell and components of the bodys immune sy
RM
+
CAR T cell cancer immunotherapy illustration
RM
+
CAR T cell cancer immunotherapy Illustration of the membrane of a cell involved in CAR (chimeric antigen receptor) T cell immunotherapy a process th
RF
+
Immune response activation illustration
RF
+
Amyloid precursor protein at cell membrane illustration The amyloid precursor protein (APP centre) is a complex protein with many functions It is
RF
+
T cell receptor CD4 and MHC proteins illustration
RF
+
Endorphin molecules binding to receptors illustration
RF
+
Activation of T-cell immune response illustration Array of proteins interacting on the surface membranes of a T-cell (across bottom) and an antigen
RF
+
CAR T cell cancer immunotherapy Illustration of the membrane of a cell involved in CAR (chimeric antigen receptor) T cell immunotherapy a process th
RF
+
Calcitonin peptide bound to its receptor illustration The calcitonin gene-related peptide (CGRP yellow) binds to its receptor (blue) on the membran
RF
+
Migraine therapy and CGRP receptor illustration Monoclonal antibodies (red) being used to block the calcitonin gene-related peptide (CGRP) receptor
RF
+
Migraine therapy and CGRP receptor illustration Monoclonal antibodies (red) being used to block the calcitonin gene-related peptide (CGRP) receptor
RF
+
Calcitonin peptide bound to its receptor illustration The calcitonin gene-related peptide (CGRP yellow) binds to its receptor (blue) on the membran
RF
+
CAR T cell cancer immunotherapy illustration Chimeric antigen receptor (light blue upper left) binding to CD19 molecules (pink centre left and cen
RF
+
CAR T cell cancer immunotherapy illustration Chimeric antigen receptor (light blue centre) binding to CD19 molecules (pink lower right and lower l
RF
+
Activation of T-cell immune response illustration
RF
+
Activation of T-cell immune response illustration
RF
+
Programmed cell death in immune system illustration The protein PD-1 (programmed cell death protein 1 red) is seen extending from the surface membr
RF
+
Antibody blocking programmed cell death illustration Antibody (yellow) blocking PD-1 (programmed cell death protein 1 red) to prevent it interactin
RF
+
Computer illustration of a T-cell receptor (purple) binding to an MHC-antigen complex (orange and green) The antigen (light green) is a peptide from
RF
+
Computer illustration of a T-cell receptor (purple) binding to an MHC-antigen complex (orange and green) The antigen (light green) is a peptide from
RF
+
Computer illustration of T-cell receptors (purple) binding to MHC-antigen complexes (orange and green) The antigen (light green) is a peptide from a
66
0
https://www.afloimages.com/search/signal%20cascade.html