Golgi apparatus, illustration
Ribosome, illustration
Cellular protein transport, illustration
Pinocytosis, illustration
Receptor-based endocytosis, illustration
Lipoprotein, illustration
Lipoproteins, illustration
Exocytosis, illustration
Phagocytosis, illustration
Aminopeptidase 1, molecular model
Human cell, illustration
Clathrin lattice, molecular model
Vault ribonucleoprotein molecule
Intracellular transport, illustration
Mitochondria, illustration
Eukaryotic cell, illustration
Nuclear membrane pore, illustration
Animal cell, illustration
Cellular packaging of DNA, illustration
Animal cell structure, illustration
Human AAA ATPase p97, molecular model
Mitochondrial matrix protein p32
Mitochondrial membrane proteins, illustration
Prefoldin molecule
Catalytic domain of guanylate cyclase
Plant cell, illustration
Structure of a nucleosome, illustration
Human mitochondrial chaperonin mHsp60, molecular model
Exporting microRNAs from nucleus, illustration
ATP synthase enzyme complex, illustration
Membrane channel proteins, illustration
Membrane carrier proteins, illustration
Membrane ion channels, illustration
Drug targets on cell membrane, illustration
Chromatin-structuring protein H-NS
Protein synthesis, illustration
Ribosomes, artwork
Human fat cell, artwork
Endoplasmic reticulum, illustration
High density lipoprotein particle
Collagen triple helix molecules, illustration
Cytokinesis in animal cells, illustration
DNA transcription, illustration
Golgi apparatus, 3d reconstruction
Chromatin fibre and DNA packaging
Cytokinesis in plant cells, illustration
Integrin cytoplasmic domain
Lassa virus receptor binding domain
PD-L binding to PD-L2, illustration
Calcium channel pore, illustration
Cellular autophagy, illustration
Rigor mortis, illustration
Ubiquitin molecule
Bacteriophage SU10 tail and bottom part, illustration
Bacteriophage SU10 tail part, illustration
ATP production in a mitochondrion, illustration
Ribosome structure, illustration
ATP-binding cassette transporter
Mitochondrial RNA-binding proteins
Microtrabecular network, illustration
Microtubule, computer model
Human DNA helicase MCM8-MCM9 complex, molecular model
Low density lipoprotein particle
LDL and HDL particles, illustration
Structure of an LDL particle
Annelid oxygen-carrying protein molecule
Toll-like receptor complexed with lncRNA, molecular model
Tumour necrosis factor superfamily complex, molecular model
Mitochondrion anatomy, illustration
Cell membrane receptor proteins, illustration
Intracellular transport of nanoparticles, illustration
Caspase-activated DNase molecule
PD-1 binding to PD-L1, illustration
Plant cell structure, illustration
Cellular protein synthesis by ribosomes, illustration
Kinesin motor protein NCD
Carrier proteins in cells, illustration
Antibody, illustration
Protein, illustration
i-motif DNA structure, illustration
Enzyme reaction models, illustration
Urease, molecular model
Importin and nucleoplasmin complex
Ubiquitin-conjugating enzyme
Ras bound to effector protein
Vitamin D binding protein
Calcium-activate potassium channel
Tryptophan hydroxylase molecule
Epidermal growth factor receptor
Ubiquitin-like protein complex
Nuclear transport complex molecule
Erectile dysfunction drug and target
Vitamin D and A receptors bound to DNA
Sodium proton antiporter molecule
Ribonuclease bound to RNA
Poly(A)-specific ribonuclease molecule
Importin beta complexed with nucleoporin
NiFe hydrogenase molecule
Kinase complexed with quercetin
Carboxyhaemoglobin molecule
Human tissue factor molecule
Human immune system complex molecule
Methaemoglobin molecule
Calmodulin-nitric oxide synthase complex
Phenylalanine hydroxylase molecule
DNA methyltransferase molecule
Tyrosine hydroxylase molecule
GlmS ribozyme molecule
Chromosomes, Illustration
Calmodulin molecule
Chaperone peptide complex