93 Bilder zum Thema "Lipid bilayer" bei ClipDealer

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3D rendering lipid bi-layer cell anatomy -- 3D Rendering
3D rendering lipid bi-layer cell anatomy -- 3D Rendering
Glycoprotein bilayer cell membrane cross section and its ion channel (3D Rendering)
Lipid bilayer-coated mesoporous silica nanoparticles: Emerging nanocarriers for targeted drug delivery and 3D-rendered nanomedicine release
Coronavirues, COVID-19. The SARS-CoV-2 virus has 3 surface proteins. attached to a lipid bilayer. The biggest is the spike (S) protein. Source: PDB entries 6vsb, 5x29.
Binding of the coronavirus spike protein(red) to an ACE2 receptor (blue) on a human cell leads to the penetration of the virus in the cell, as depicted in the background.
Key brain receptors: the NMDA, AMPA & GABA receptors
Transferosomes structure are vesicular carrier systems that enclosed by a lipid bilayer, together with an edge activator 3d rendering
Membrane proteins (violett), glycolipids (yellow) and several ligands of the proteins
The liposomes can burst or be broken down to release nanodrugs or nanomedicine 3d rendering
lipid bilayer forming liposome as drug delivery system in 3d
3D rendering lipid bi-layer cell anatomy -- 3D Rendering
Coronaviruses penetrating in human cell. Binding of the coronavirus spike protein(red) to an ACE2 receptor (blue) leads to the penetration of the virus in the cell. 3d rendering. PDB 6VSB, 6ACJ
3D rendering lipid bi-layer cell anatomy -- 3D Rendering
The liposomes can burst or be broken down to release nanodrugs or nanomedicine 3d rendering
5 membrane proteins with their ligands: (left to right) Potassium channel, delta-opioid receptor, LDL receptor, acetylcholine receptor, histamine receptor.
3d rendering of lipid bilayer on the white background
Antibody binding to the spike protein of the SARS-CoV-2 virus is an essential step for developing immunity to the coronavirus. PDB source 6VSB, 1IGT
A cell membrane in fish eye perspective. Receptors: opioid receptor, LDL receptor and acetyl choline receptor. Channel proteins: chloride channel and acetat permease. The glycolipids are depicted in bluish green.
ATP synthase couples ATP (red) synthesis from ADP and inorganic phosphate (orange) to a proton gradient (yellow) created across the mitochondrial membrane during cellular respiration.
liposomes as nanocarriers for small interference RNA (siRNA) delivery 3d rendering
3d rendering of nanomedicine inside of liposome lipid bilayer
3d rendering of nanomedicine inside of liposome lipid bilayer
From bottom to top: Fo-subunit (violet), axle-element (light violet), the stator element (light blue), and ATP synthesis takes place in the upper F1-subunit (blue).
Antibodies binding to a coronavirus. Binding of antibodies to the spike (S)-protein of the SARS-CoV-2 virus is an essential step for developing immunity to the coronavirus.
3D rendering lipid bi-layer cell anatomy -- 3D Rendering
Antibodies binding to the spike protein (red) of the coronavirus prevent it's binding to ACE2 (light blue) on a human cell.
3d rendering of nanomedicine inside of liposome lipid bilayer
3d rendering of assembly or formation phospholipids into bilayer structure
DNA nanosensor fluorescence imaging microscopy 3d rendering
3d rendering of assembly or formation phospholipids into bilayer structure
Immune response to coronavirus infection: antibodies binding to the S protein
Makrophage engulfing an destroying coronaviruses.
5 membrane proteins with their ligands: (left to right) Potassium channel, delta-opioid receptor, LDL receptor, acetylcholine receptor, histamine receptor,
Binding of antibodies to the spike (S)-protein of the SARS-CoV-2 virus is an essential step for developing immunity to the coronavirus. PDB source 6VSB, 1IGT, 5X29
Immune response to coronavirus infection: coronaviruses marked bei antibodies are engulfed and destroyed by a macrophage immune cell
Immune response to coronavirus infection: coronaviruses marked bei antibodies are engulfed and destroyed by a macrophage immune cell
Properties of liposome nanoparticles for drug deliverywith proteins, biosensor and ligands attached
3d illustration of the ATP synthesis in a mitochondrion. ATP synthase couples ATP (red) synthesis from ADP and inorganic phosphate (orange) to a proton gradient (light points) created across the mitochondrial membrane during cellular respiration.
Isolated Capsule cases contain nanoparticles or liposomes in black background 3d rendering
Transfersomes are ultra-deformable carriers that facilitate the delivery of a diverse array of drug molecules across the lipid bilayer 3d rendering
Niosomes are the microscopic lamellar structures in an emerging drug delivery system 3d rendering
DNA origami technology have been able to engulf a whole virus body or known as molecular virus trap 3d rendering
3D rendering lipid bi-layer cell anatomy -- 3D Rendering
Steroid Hormones Mechanism
Ceramides are a family of waxy lipid molecules. A ceramide is a molecule composed of sphingosine and a fatty acid. 3d illustration
Human lipid bilayer on a white background
3d rendering of DNA helixes inside of liposome
3d rendering of DNA helixes inside of liposome
Omega-3 Phospholipid skin cell membrane lipid layer structure

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