94 Bilder zum Thema "transduction" bei ClipDealer

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Dendritic cells present antigens (green) to lymphocytes through their membran bound MHC-molecules (violet). CD4 molecules (light blue) bind to other portions of the MHC, strengthening the interaction.
Cancer cells express PD-L1 (orange) proteins on their surface to trick the immune system. The interaction of PD-L1 with PD-1 of T-cells leads to a down-regulation of T-cells. The antibody (yellow) blocks this interaction.
The T-cell receptor activates the immune response to antigens in T-lymphocytes. T-cell receptors (dark blue), CD4 molecules (light blue), glycolipids (orange). 3d rendering. Illustration
Structure of human hormone insulin-like peptide-3 heterodimer, 3D cartoon and Gaussian surface models, white background
Calmodulin, inactive-calcium free (left), and activated (right) conformations,
CAMP Cyclic Adenosine MonoPhosphate - second messenger important in many biological processes, acronym text with arrows
Estrogen receptor beta dimer in complex with estradiol, 3D cartoon model, chain id color scheme, based on PDB 5toa, white background
Crystal structure of a photoactivated rhodopsin, 3D cartoon model isolated, white background
Structure of human Activin A homodimer, 3D cartoon model, white background
Chemical formula, skeletal formula and 3D ball-and-stick model of cyclic adenosine monophosphate (cAMP), white background
T-cell receptor in complex with the MHC class II-peptide complex. The antigen (light green) is a peptide from a tumor cell, bacteria or virus. Different stages of the interaction. 3D-Rendering. Illustration
Calmodulin, a crucial messenger protein. Calmodulin has 4 Ca2+ binding sites.
Crystal structure of VDR ligand binding domain complexed to calcipotriol (blue), 3D ball-and-stick model, white background
3d computer illustration of the activation process of a Ras protein. Inactive Ras protein (left) is activated by a GEF protein opening the binding site and allowing GDP to exit. Afterwards GTP can bind to RAS turning it into the active form (right).
Abstract illustration of the biological cell
Cyclic adenosine monophosphat (cAMP, red) is a second messenger used for signal transduction through the activation of various protein kinases (blue). The one in the foreground is protein kinase A. Source: PDB entry 3tnp.
Immunologically active proteins on a T-cell. TCR (blue), CD-4 (light blue), CD-28 (dark blue), PD-1 (magenta), CTLA-4 (violet), Ca-channel (dark violet). The T-cell receptor, CD-4 and CD-28 activate T-cells, while PD-1 and CTLA-4 inhibit the activat
T-cell receptor in complex with the MHC class II-peptide complex. The antigen (light green) is a peptide from a tumor cell, bacteria or virus. Complex embedded in the membranes. 3D-Rendering. Illustration
Structure of human interleukin-10, 3D cartoon model isolated, white background
3D image of Inositol skeletal formula - molecular chemical structure of carbocyclic sugar Vitamin B8 isolated on white background
Abstract illustration of the biological cell division
Abstract illustration of the biological cell
Abstract illustration of the biological cell
Abstract illustration of the biological cell, medicine
T-cell receptor in complex with the MHC class II-peptide complex. The antigen (light green) is a peptide from a tumor cell, bacteria or virus. Different stages of the interaction. 3D-Rendering. Illustration
Thyroxine-thyroid hormone receptor interactions, 3D cartoon model, white background
3d computer illustration of an activated Ras protein. Ras proteins are involved in transmitting signals within cells turning on genes involved in cell growth, differentiation and survival. Mutations in ras genes can lead to permanently activated prot
CAMP Cyclic Adenosine MonoPhosphate - second messenger important in many biological processes, acronym text on blackboard
Structure of the human androgen receptor, 3D cartoon model with the differently colored elements of the secondary structure, white background
Abstract illustration of the biological cell
abstract illustration of the biological cell and the mitochondria
Abstract illustration of the biological cell
PD-1 (red) extends from the surface of a T-cell and interacts with the ligand protein PD-L1 (yellow) from a antigen presenting cell. Although the T-cell has been activated through the interaction of a T-cell receptor (blue) and a MHC protein (viole
Insulin (green) binding to the insulin receptor (violet) activates the transport of glucose (yellow) into the cell (depicted in 2 phases) - Illustration
Insulin molecules
T-cell receptor in complex with the MHC class II-peptide complex. The antigen (light green) is a peptide from a tumor cell, bacteria or virus. Different stages of the interaction. 3D-Rendering. Illustration
Insulin (green) binding to the insulin receptor (violet) activates the transport of glucose (yellow) into the cell. Illustration
T-cell receptor bound to a cell membrane
The insulin receptor (blue) is a transmembrane protein, that is activated by insulin (orange). Insulin binding induces structural changes within the receptor that finally leads to the activation of the glucose transporter protein.
Protein enzymes fold into their structure to fulfill their function - 3d illustration
abstract illustration of the biological cell and the mitochondria
abstract illustration of the biological cell and the mitochondria
Abstract illustration of the biological cells
Abstract illustration of the biological cell
Rhodopsin is a light sensitive G-protein coupled receptor with retinal as cofactor. that stimulates the G-protein transducin, resulting in the liberation of its subunit. This GTP-bound subunit in turn activates cGMP phosphodiesterase.
Structure of human interleukin-11, 3D cartoon model isolated, white background
Structure of insulin-like growth factor 1 (IGF-1), 3D cartoon model of the tertiary structure with the elements of the secondary structure colored, white background
Structure of human endothelin-1, a polypeptide hormone regulator of blood pressure, 3D combined surface-cartoon model isolated, white background
Structure of human interleukin-2, 3D cartoon model isolated, white background
3D image of Inositol trisphosphate skeletal formula - molecular chemical structure of inositol phosphate signaling molecule isolated on white background

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