Proteomics Collection (page 8)

Titin muscle protein molecule F006 / 9612
Titin muscle protein. Molecular model of two immunoglobulin-like domains from the giant muscle protein titin

Integrin transmembrane domain F006 / 9614
Integrin transmembrane domain, molecular model. Integrins are transmembrane cell adhesion receptors

Cytochrome P450 and erythromycin F006 / 9610
Cytochrome P450 and erythromycin. Molecular model of human cytochrome P450 complexed with the antibiotic erythromycin. This protein plays a crucial role in metabolism in animals (including humans)

Growth factor receptor molecule F006 / 9613
Growth factor receptor. Molecular model of the transmembrane segment of the ErbB2 growth factor receptor

Nerve growth factor bound to receptor F006 / 9608
Nerve growth factor. Molecular model of human nerve growth factor bound to the TrkA receptor. NGF is a neurotrophin that acts on the development and function of nerves

Viral RNA packaging signal complex F006 / 9609
Viral RNA packaging signal complex. Molecular model of the muPsi RNA packaging signal complex from the Rous sarcoma vuris

HIV reverse transcription enzyme F006 / 9606
HIV reverse transcription enzyme. Molecular model of the reverse transcriptase enzyme (pink) found in HIV (the human immunodeficiency virus)

Haemoglobin, molecular model F006 / 9604
Haemoglobin, molecular model. This is deoxyhaemoglobin, the molecule in its non-oxygen bound state. Haemoglobin transports oxygen around the body in red blood cells

Rhomboid protease molecule F006 / 9607
Rhomboid protease. Molecular model of the rhomboid protease enzyme GlpG from the bacterium Escherichia coli. Proteases are enzymes that break down proteins

Glutamine synthetase enzyme F006 / 9598
Glutamine synthetase enzyme, molecular model. This ligase enzyme forms chemical bonds between molecules. It plays an important role in the metabolism of nitrogen by catalysing the condensation of

Insulin molecule F006 / 9605
Insulin molecule. Molecular model of the hormone insulin. Insulin consists of two peptide chains, A and B, which are linked by disulphide bridges

3-hydroxyacyl-CoA dehydrogenase F006 / 9602
3-hydroxyacyl-CoA dehydrogenase, molecular model. This enzyme is found in human heart tissue, and catalyses a reaction that is part of the beta-oxidation pathway

Hepatitis B virus capsid, molecular model F006 / 9594
Hepatitis B virus capsid, molecular model. This virus, transmitted through infected bodily fluids or blood, causes the disease hepatitis B in humans, leading to acute liver inflammation

Thrombin protein, molecular model F006 / 9603
Thrombin protein, molecular model. Thrombin is an enzyme involved in the blood coagulation (clotting) process. It converts fibrinogen (a soluble plasma glycoprotein synthesised in the liver)

Haemoglobin S, molecular model F006 / 9601
Haemoglobin S. Molecular model of the mutant form of haemoglobin (haemoglobin S) that causes sickle cell anaemia. This is deoxyhaemoglobin S, the molecule in its non-oxygen bound state

RNA-editing enzyme, molecular model F006 / 9599
RNA-editing enzyme. Molecular model of a left-handed, RNA double helix (Z-RNA, centre) bound by the Z alpha domain of the human RNA-editing enzyme ADAR1 (double-stranded RNA adenosine deaminase)

Protein kinase regulatory subunit F006 / 9600
Protein kinase regulatory subunit. Molecular model of a regulatory subunit from cAMP-dependent protein kinase bound to. This enzyme is also known as protein kinase A (PKA)

Cyanobacterial circadian clock protein F006 / 9595
Cyanobacterial circadian clock protein, molecular model. This protein is a kinase known as KaiC. Its structure is a hexamer

Programmed cell death protein molecule F006 / 9597
Human programmed cell death protein 4, molecular model. This protein is involved in apoptosis (programmed cell death)

Multidrug transporter molecule F006 / 9596
Multidrug transporter. Molecular model of the multidrug transporter EmrD from the bacterium Escherichia coli. This protein pumps drugs, including antibiotics, out of the bacterial cell

Respiratory complex I F006 / 9593
Respiratory complex I. Molecular model of the hydrophilic domain of respiratory complex I from the bacterium Thermus thermophilus. This enzyme is involved in energy production

Chymotrypsin digestive enzyme molecule F006 / 9577
Chymotrypsin digestive enzyme, molecular model. Chymotrypsin is a protease, an enzyme that breaks down proteins and peptides. It is secreted into the duodenum (small intestine) by the pancreas

Ribonuclease bound to transfer RNA F006 / 9591
Ribonuclease bound to transfer RNA, molecular model. This complex consists of the ribonuclease Z (RNase Z, green and pink) enzyme bound to a transfer RNA (tRNA) molecule (orange and blue)

H5N1 Haemagglutinin protein subunit F006 / 9590
H5N1 haemagglutinin protein subunit. Molecular model of the haemagglutinin HA(5) subunit. Haemagglutinin is a surface protein from the influenza A virus

RNA-induced silencing complex F006 / 9587
RNA-induced silencing complex (RISC), molecular model. This complex consists of a bacterial argonaute protein (top right) bound to a small interfering RNA (siRNA) molecule (red and blue)

RNA interference protein, molecular model F006 / 9589
RNA interference protein, molecular model. This RNA interference protein is also known as dicer. It is an RNAase enzyme that cleaves double-stranded RNA into short fragments called small interfering

Aspartyl-tRNA synthetase protein molecule. Molecular model showing the structure of the active site of aspartyl-tRNA synthetase (DARS) from yeast

Acyl carrier protein molecule F006 / 9588
Acyl carrier protein (ACP), molecular model. This enzyme is involved in fatty acid synthesis

DNA transcription, molecular model F006 / 9584
DNA transcription. Molecular model of the enzyme RNA polymerase II synthesising a mRNA (messenger ribonucleic acid) strand from a DNA (deoxyribonucleic acid) template

Dynamin enzyme, molecular model F006 / 9583
Dynamin enzyme. Molecular model of the pleckstrin homology (PH) domain of the dynamin enzyme. Domains are structural regions of enzymes that are often actively involved in biological processes

Double-stranded RNA-ribonuclease III F006 / 9585
Double-stranded RNA-ribonuclease III. Molecular model of ribonuclease III (RNase III, D44N, pink and green) complexed with a double-stranded RNA (ribonucleic acid) strand (red and blue)

Human rotavirus capsid protein molecule F006 / 9582
Human rotavirus capsid protein, molecular model

Insulin receptor molecule F006 / 9581
Insulin receptor, molecular model. The insulin receptor is a transmembrane protein, that is it spans the cellular membrane

Haemoglobin, molecular model F006 / 9580
Haemoglobin, molecular model. This is deoxyhaemoglobin, the molecule in its non-oxygen bound state. Haemoglobin transports oxygen around the body in red blood cells

Bioluminescent enzyme molecule F006 / 9579
Bioluminescent enzyme. Molecular model of the bioluminescent enzyme luciferase from the Japanese aquatic firefly (Luciola cruciata) complexed with an intermediate protein

Adenovirus penton base protein F006 / 9572
Adenovirus penton base protein, molecular model. This protein molecule is a subunit called a penton, forming the vertices of the capsid of this adenovirus

Fatty acid synthase molecule F006 / 9575
Fatty acid synthase (FAS), molecular model. FAS is a multi-enzyme that plays a key role in the synthesis of fatty acids (lipids) in the human body. It is not a single enzyme but a whole enzyme system

Heat shock protein 90 chaperone complex F006 / 9576
Heat shock protein 90 (Hsp90) chaperone complex, molecular model. Hsp90 is a molecular chaperone and a member of the heat shock protein (HSP) family

Chymotrypsin inhibitor 2 molecule F006 / 9578
Chymotrypsin inhibitor 2, molecular model. This enzyme is a serine protease inhibitor (serpin) found in barley (Hordeum vulgare) seeds

Citrate synthase molecule F006 / 9573
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy

Family 84 glycoside hydrolase molecule F006 / 9574
Family 84 glycoside hydrolase, molecular model. Glycoside hydrolases are enzymes that hydrolase the glycosidic bond between two or more carbohydrates

Acetylcholine receptor molecule F006 / 9569
Acetylcholine receptor. Molecular model showing the structure of a nicotinic acetlycholine receptor. This receptor, for the neurotransmitter acetylcholine

Nuclear import complex molecule F006 / 9571
Nuclear import complex. Molecular model of an importin protein complexed with a RanGTP molecule. This protein complex imports other proteins into the cell nucleus

Retinal-producing oxygenase enzyme F006 / 9570
Retinal-producing oxygenase enzyme, molecular model. This enzyme plays a role in the production and metabolism of retinal and other apocarotenoids. Retinal is the chemical basis of vision in animals

Flu virus surface protein molecule F006 / 9566
Flu virus surface protein molecule. Molecular model of the neuraminidase glycoprotein enzyme found on the surface of the influenza A (flu) virus

Amyloid beta protein molecule F006 / 9568
Amyloid beta protein. Molecular model showing the structure of amyloid beta protein, the primary component of amyloid plaques found in the brains of Alzheimers patients

Calcium-binding protein molecule F006 / 9567
Calcium-binding protein. Molecule model of the calcium-binding protein calmodulin (CaM) bound to a myosin light-chain kinase molecule. This complex is involved in muscle contraction

Iron-regulatory protein, molecular model F006 / 9565
Iron-regulatory protein. Molecular model of iron regulatory protein 1 (IRP1). Depending on the conformation of IRP1, it can acts as either a regulator of mRNA (messenger RNA) or an enzyme

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Proteomics, the study of proteins and their functions within an organism, is a fascinating field that unravels the intricate workings of life. From anaesthetics inhibiting ion channels to immunoglobulin G antibody molecules, proteomics delves into the molecular mechanisms that shape our existence. In the realm of brain research, scientists explore how proteins influence cognition and behavior. They investigate DNA nucleosomes' structure and function, unraveling their role in gene regulation. Antibodies take center stage as artwork showcases their diverse forms and crucial role in immune defense. Zinc fingers bound to a DNA strand highlight protein-DNA interactions critical for genetic processes. Meanwhile, manganese superoxide dismutase enzyme aids in protecting cells from oxidative stress. The SARS coronavirus protein becomes a subject of intense scrutiny as researchers strive to understand its pathogenicity. Cytochrome b5 molecule reveals insights into electron transfer reactions within cells while glutamine synthetase enzyme plays a vital role in nitrogen metabolism. Lastly, RNA-editing enzymes offer potential therapeutic targets for various diseases with their ability to modify genetic information at the RNA level. Through proteomics, we unlock nature's secrets one protein at a time - deciphering their structures, unraveling their functions, and ultimately enhancing our understanding of life itself.