Crystal Structure Collection

Ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Rotaxane, molecular crystal structure C017 / 7007
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Rotaxane, molecular crystal structure C017 / 7011
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Rotaxane, molecular crystal structure C017 / 7014
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Rotaxane, molecular crystal structure C017 / 7013
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Antibody molecule F007 / 0109
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0107
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0104
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0105
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Antibody molecule F007 / 0103
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Alemtuzumab Fab fragment molecule F007 / 0100
Alemtuzumab Fab fragment, crystal structure. Alemtuzumab is a humanized monoclonal antibody that binds the CD52 protein and is used in the treatment of cancer and auto-immune disease

Antibody molecule F007 / 0102
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Alemtuzumab Fab fragment molecule F007 / 0099
Alemtuzumab Fab fragment, crystal structure. Alemtuzumab is a humanized monoclonal antibody that binds the CD52 protein and is used in the treatment of cancer and auto-immune disease

Antibody molecule F007 / 0101
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Alemtuzumab Fab fragment molecule F007 / 0097
Alemtuzumab Fab fragment, crystal structure. Alemtuzumab is a humanized monoclonal antibody that binds the CD52 protein and is used in the treatment of cancer and auto-immune disease

Alemtuzumab Fab fragment molecule F007 / 0098
Alemtuzumab Fab fragment, crystal structure. Alemtuzumab is a humanized monoclonal antibody that binds the CD52 protein and is used in the treatment of cancer and auto-immune disease

Rotaxane, molecular crystal structure C017 / 7015
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Rotaxane, molecular crystal structure C017 / 7016
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Rotaxane, molecular crystal structure C017 / 7010
Molecular crystal structure of a rotaxane. A rotaxane is a chemical compound composed of a linear molecular chain passing through a chainlike molecular ring

Peptide YY obesity hormone molecule C014 / 4911
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Peptide YY obesity hormone molecule C014 / 4910
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Activated ghrelin hormone molecule C014 / 4902
Activated ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Activated ghrelin hormone molecule C014 / 4901
Activated ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Space-centred cubic crystal structure. Computer artwork of a space-centred cubic crystal lattice, a common arrangement of atoms in solids

Hexagonal close-packed crystal structure. Computer artwork of a hexagonal close-packed crystal lattice, a common arrangement of atoms in solids

Sectioned iron meteorite
Iron meteorite. Sectioned fragment from an iron meteorite that caused the Odessa crater in Texas, USA, about 50, 000 years ago

Ferrite molecule
Ferrite, molecular model. Ferrite, or alpha-iron, is iron with a body centred cubic crystal structure

Sigma1 protein molecule, artwork
Molecular representation of the 3 chain crystal structure of Reovirus Attachment Protein Sigma1 Trimer. Reovirus attaches to cellular receptors with the sigma1 protein, a fiber-like molecule

Xanthine dehydrogenase molecule. Computer model showing the molecular structure of the Xanthine dehydrogenase (XDH) enzyme

Iron-hydrogenase molecule. Computer model showing the molecular structure of an iron-hydrogenase ([FE]-hydrogenase) enzyme from the Methanocaldococcus jannaschii archaeon

Fatty acid synthase in complex with NADP+. Computer model showing the molecular structure of fatty acid synthase (FAS) complexed with nicotinamide adenine dinucleotide phosphate (NADP+)

Bacteria circadian clock protein molecule. Computer model showing the molecular structure of the KaiC protein found in cyanobacteria (blue-green algae)

Cholesterol producing enzyme and statin. Computer model showing the molecular structure of HMG-CoA reductase (HMGCR) in complex with Atorvastatin

Selenocysteine synthase enzyme molecule. Computer model showing the molecular structure of the enzyme selenocysteine synthase (SecS)

Crystal structure of graphite, artwork
Artwork of the crystal structure of graphite showing parallel layers of hexagonally arranged carbon atoms. Graphite as used in pencil lead, lubricants

Inhibin beta A molecule. Computer model showing the crystal structure of a molecule of the protein Inhibin beta A (INHBA)

Orexin-A hormone molecule. Computer model showing the crystal structure of a molecule of the hormone orexin-A. The crystal structure consists of both the secondary structure

Orexin-B hormone molecule. Computer model showing the crystal structure of a molecule of the hormone orexin-B. The crystal structure consists of both the secondary structure

Nitrogenase protein, molecular model
Nitrogenase protein. Molecular model of the MoFe protein, one of two proteins (MoFe and Fe) that combine to form the enzyme nitrogenase

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"Unveiling the Beauty of Crystal Structures: Exploring Ghrelin Hormone and Antibody Molecules" they are like intricate works of art, revealing the hidden beauty within molecules. One such captivating example is the Ghrelin hormone molecule, which plays a crucial role in regulating appetite and energy balance. But let's delve deeper into the fascinating world of crystal structures. Enter Rotaxane, a molecular crystal structure with various forms like C017 / 7007, C017 / 7011, C017 / 7014, and C017 / 7013. These complex arrangements showcase how molecules can interlock like gears in a machine. Moving on to Antibody molecules F007 / 0109, F007 / 0107, F007 / 0104, F007 / 0105, and F007/0103 – these crystal structures offer insights into our immune system's incredible defense mechanisms. Each antibody molecule acts as a guardian against harmful invaders by recognizing specific targets with remarkable precision. Now let's focus on Alemtuzumab Fab fragment molecule F007/0100 – an essential component derived from antibodies used in targeted therapies for diseases like cancer. Its crystal structure provides valuable information for designing more effective treatments. As we unravel these crystal structures piece by piece using advanced techniques such as X-ray diffraction or electron microscopy, we gain profound knowledge about their three-dimensional arrangements. This understanding opens up new possibilities for drug design and development. The study of crystal structures not only satisfies scientific curiosity but also holds immense practical significance. By deciphering these mesmerizing patterns at an atomic level, scientists can unlock secrets that may lead to groundbreaking medical breakthroughs or innovative materials with unique properties. Exploring crystal structures offers us glimpses into the intricate architecture of molecules such as Ghrelin hormone and Antibodies. It allows us to appreciate nature's complexity while paving the way towards advancements that can improve human health and enhance our understanding of the world around us.