By Date
PhiX174 YES Complex April 2024 Bacteriophage phiX174 makes a small protein that kills bacterial cells. |
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Hyaluronidases March 2024 Long carbohydrate chains are used to make our bodies flexible and resilient. |
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Nanowires February 2024 Nanowires conduct electrons one at a time inside biological molecules. |
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Mediator January 2024 Mediator integrates regulatory information to decide when genes need to be transcribed. |
Vitamins December 2023 Vitamins are essential molecular tools that are obtained through a healthy diet. |
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ZAR1 Resistosome November 2023 Plants protect themselves from infection with immune system machines such as the resistosome |
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RSV Fusion Glycoprotein October 2023 Structures of the fusion glycoprotein from respiratory syncytial virus (RSV) were used to engineer effective vaccines to fight viral infection. |
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Histone Deacetylases September 2023 Histone deacetylases regulate access to genetic information by modifying histones |
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ATM and ATR Kinases August 2023 Dividing cells use ATM and ATR kinases to respond to DNA damage. |
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c-Abl Protein Kinase and Imatinib July 2023 Protein kinases are being targeted by new anti-cancer drugs |
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Odorant Receptors June 2023 Our sense of smell relies on odorant receptors that recognize specific scents. |
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Cellulases and Bioenergy May 2023 Powerful fungal enzymes break down cellulose during industrial production of ethanol from plant material. |
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MHC I Peptide Loading Complex April 2023 Several steps of quality control optimize the peptides that are displayed by MHC I. |
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Anaphase-Promoting Complex / Cyclosome March 2023 APC/C guards the checkpoints that regulate key steps in the cell cycle |
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SARS-CoV-2 Nucleocapsid and Home Tests February 2023 Home test kits for SARS-CoV-2 test for the presence of nucleocapsid, the protein that packages the viral genome in infectious virions. |
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Plastic-eating Enzymes January 2023 Researchers are looking to Nature to find ways to dispose of discarded plastic. |
Click Chemistry December 2022 A modular approach to chemistry simplifies the construction of complex protein-targeting molecules. |
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Actin Branching by Arp2/3 Complex November 2022 By mimicking actin, Arp2/3 complex helps build a complex cytoskeleton that supports and shapes cells. |
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Phytohormone Receptor DWARF14 October 2022 Some phytohormones mobilize the cell’s protein degradation machinery to regulate plant growth and development. |
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Respiratory Supercomplex September 2022 In our mitochondria, three electron-transport complexes assemble into a supercomplex. |
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Secretory Antibodies August 2022 Secretory immunoglobulins are our most abundant antibodies, providing a first line of defense against pathogens. |
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Non-Homologous End Joining Supercomplexes July 2022 Lethal double-strand breaks in the DNA genome are repaired by NHEJ |
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Pyruvate Kinase M2 June 2022 Pyruvate kinases are the paradoxical gatekeepers for cancer cell metabolism and growth. |
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Nicotine, Cancer, and Addiction May 2022 Nicotine causes addiction by interacting with receptors in the brain |
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HER2/neu and Trastuzumab April 2022 Trastuzumab monoclonal antibodies targeting HER2 receptors are at the forefront of breast cancer treatment |
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Vascular Endothelial Growth Factor (VegF) and Angiogenesis March 2022 VegF promotes blood vessel formation (angiogenesis), affecting cancer proliferation, wound healing, and other bodily processes. |
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Oligosaccharyltransferase February 2022 Oligosaccharyltransferase adds a protective coat of carbohydrates to proteins. |
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Golgi Casein Kinase January 2022 Casein and many other secreted proteins are phosphorylated by Golgi casein kinase |
SARS-CoV-2 Spike Variants December 2021 SARS-CoV-2 is constantly changing, posing new challenges during the COVID19 pandemic |
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Acetohydroxyacid Synthase November 2021 In plants, AHAS performs the first step in synthesis of three essential amino acids, making it an effective target for herbicides. |
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Fifty Years of Open Access to PDB Structures October 2021 The Protein Data Bank is celebrating its golden anniversary! |
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DNA-Sequencing Nanopores September 2021 Designer nanopores work with enzymes to offer pocket-sized DNA sequencing |
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Ribonuclease P August 2021 The ribozyme ribonuclease P cleaves pre-tRNA to form functional tRNA. |
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Designed Proteins and Citizen Science July 2021 What if people with no formal experience in science could help to improve or even rewrite nature, simply by playing a game? |
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Glucocorticoid Receptor and Dexamethasone June 2021 An anti-inflammatory drug has given us a new way to fight the COVID-19 pandemic. |
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Fetal Hemoglobin May 2021 Fetal hemoglobin allows a growing fetus to receive oxygen from their mother. |
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SARS-CoV-2 Spike and Antibodies April 2021 Structural biologists are revealing the many ways that antibodies recognize SARS-CoV-2 |
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Cisplatin and DNA March 2021 Cisplatin treats cancer by causing damage to the DNA of cancer cells. |
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Cellulose Synthase February 2021 Plants build tough cellulose strands one sugar at a time. |
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Expressome January 2021 In bacteria, ribosomes start building proteins as messenger RNA is being transcribed |
Hepatitis C Virus Protease/Helicase December 2020 Structures of hepatitis C viral proteins have led to the discovery of direct-acting antivirals. |
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Adenylyl Cyclase November 2020 Adenylyl cyclase creates second messengers to amplify signals from G-protein coupled receptors |
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Capsaicin Receptor TRPV1 October 2020 TRPV1 is an ion channel that senses heat and contributes to pain sensation. |
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SARS-CoV-2 RNA-dependent RNA Polymerase September 2020 Coronaviruses duplicate their RNA genome using a specialized polymerase |
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Phytosulfokine Receptor August 2020 Phytosulfokine and other small peptides deliver signals about growth and development in plants. |
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Myelin-associated Glycoprotein July 2020 Nerve axons are insulated and protected by a sheath of myelin |
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SARS-CoV-2 Spike June 2020 Coronavirus spike protein binds to receptors on cell surfaces, and is a target for vaccine development. |
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Spliceosomes May 2020 Cryoelectron microscropy is revealing how spliceosomes cut-and-paste messenger RNA molecules. |
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Photosynthetic Supercomplexes April 2020 Light is captured by huge supercomplexes of photosystems and antenna systems. |
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Voltage-gated Sodium Channels March 2020 Voltage-gated sodium channels transmit signals in a wave through the nervous system. |
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Coronavirus Proteases February 2020 Coronavirus proteases are attractive targets for the design of antiviral drugs. |
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Twenty Years of Molecules January 2020 Celebrating the structural biology revolution |
Hypoxia-Inducible Factors December 2019 HIF-α is a molecular switch that responds to changing oxygen levels. |
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Phospholipase A2 November 2019 Phospholipase A2 breaks membrane lipids, forming molecules that contribute to inflammation and pain signaling. |
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Ribonucleotide Reductase October 2019 Ribonucleotide reductase creates the building blocks of DNA |
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Nanodiscs and HDL September 2019 Nanodiscs conveniently package a small piece of membrane for experimental studies. |
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Cyclin and Cyclin-dependent Kinase August 2019 Cyclins and cyclin-dependent kinases control when cells divide, making them important targets for cancer therapy. |
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AMPA Receptor July 2019 Receptors for the neurotransmitter glutamate in our brain come in several shapes and sizes. |
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MDM2 and Cancer June 2019 MDM2 controls the action of p53 tumor suppressor, making it a target for cancer chemotherapy. |
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S-Nitrosylated Hemoglobin May 2019 Nitric oxide is attached to a conserved cysteine in hemoglobin and then released to control the flow of blood. |
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Proteins and Biominerals April 2019 Small biomineral crystals are used to build bone, eggshells and even tiny compasses. |
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Measles Virus Proteins March 2019 Six proteins in measles virus work together to infect cells. |
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Initiation Factor eIF4E February 2019 Initiation factors for protein synthesis interact through disordered chains. |
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Fluorescent RNA Aptamers January 2019 RNA aptamers are being engineered to track molecules inside living cells |
Directed Evolution of Enzymes December 2018 Biological evolution is being harnessed in the lab to create new enzymes. |
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Telomerase November 2018 Telomerase maintains the ends of our chromosomes. |
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Aminoglycoside Antibiotics and Resistance October 2018 Bacteria become resistant to aminoglycosides by destroying them or changing their target. |
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Phytase September 2018 Phytase is used in agriculture to mobilize indigestible phosphate compounds in livestock feed. |
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Legumain August 2018 Legumain cleaves proteins, and can also put them back together. |
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Piezo1 Mechanosensitive Channel July 2018 Mechanosensitive ion channels give our cells a sense of touch. |
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Proteins and Nanoparticles June 2018 Nanotech scientists are designing new ways to combine proteins and nanoparticles |
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Human Papillomavirus and Vaccines May 2018 The capsid protein of papillomavirus is used in vaccines that prevent cervical cancer. |
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Dehalogenases April 2018 Bacteria destroy toxic environmental pollutants that include chlorine or bromine atoms. |
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Vacuolar ATPase March 2018 Two linked molecular motors are used to pump protons across membranes. |
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EPSP Synthase and Weedkillers February 2018 The weedkiller Roundup attacks a key enzyme involved in the construction of aromatic compounds. |
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Opioid Receptors January 2018 Morphine and other opioid drugs bind to receptors in the nervous system, controlling pain |
Biodegradable Plastic December 2017 Bacteria build biodegradable plastic that could be better for the environment |
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Aspartate Transcarbamoylase November 2017 Key biosynthetic enzymes are regulated by their ultimate products through allosteric motions. |
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Chimeric Antigen Receptors October 2017 T cells may be engineered with chimeric antigen receptors to attack cancer cells. |
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Sirtuins September 2017 Sirtuin activation is being explored as a way to slow aging. |
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Glutathione Transferases August 2017 Glutathione transferase tags toxic molecules, making them easy to recognize and remove. |
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Pilus Machine July 2017 A molecular machine with a rotary motor builds a long protein filament involved in bacterial motility and attachment. |
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Adenine Riboswitch in Action June 2017 XFEL serial crystallography reveals what happens when adenine binds to a riboswitch |
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Tissue Transglutaminase and Celiac Disease May 2017 Tissue transglutaminase staples proteins together by forming a chemical crosslink. |
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Glucose Transporters April 2017 Glucose transporters deliver glucose molecules one-by-one across cell membranes. |
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Photoactive Yellow Protein March 2017 Researchers use synchrotrons and X-ray lasers to reveal the rapid processes of light sensing. |
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Globin Evolution February 2017 The mechanisms of molecular evolution are revealed in globin sequences and structures. |
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Nuclear Pore Complex January 2017 The nuclear pore complex is the gateway between the nucleus and cytoplasm. |
PD-1 (Programmed Cell Death Protein 1) December 2016 PD-1 and its ligands are a new target for cancer therapy |
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Aminopeptidase 1 and Autophagy November 2016 Aminopeptidase 1 is delivered inside the cell using the machinery of autophagy |
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Dipeptidyl Peptidase 4 October 2016 Inhibitors of dipeptidyl peptidase 4 are used to treat type-2 diabetes |
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Isoprene Synthase September 2016 Plants release a billion metric tons of isoprene and other organic gases every year. |
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Quasisymmetry in Icosahedral Viruses August 2016 Viruses use quasisymmetry to build large capsids out of many small subunits |
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Monellin July 2016 Monellin and other supersweet proteins trick our taste receptors. |
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Beta-galactosidase June 2016 Beta-galactosidase is a powerful tool for genetic engineering of bacteria |
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Zika Virus May 2016 Cryo-electron microscopy reveals the structure of Zika virus |
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Lead Poisoning April 2016 Lead ions poison proteins throughout the body, blocking their normal function. |
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RAF Protein Kinases March 2016 A single mutation in a RAF protein kinase can help transform a normal cell into a cancer cell. |
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Designer Insulins February 2016 Engineered insulins have been developed to improve treatment of diabetes |
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Siderocalin January 2016 Our innate immune system starves bacteria of iron using siderocalin. |
Vancomycin December 2015 The antibiotic vancomycin blocks the construction of bacterial cell walls. |
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Glutamate-gated Chloride Receptors November 2015 The antibiotic ivermectin attacks glutamate-gated chloride channels, paralyzing parasitic worms. |
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Two-component Systems October 2015 Bacteria respond to their environment with two-component sensing systems. |
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Amyloids September 2015 Alzheimer's disease and prion diseases are linked to unnatural aggregation of proteins into amyloid fibrils. |
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Tetrahydrobiopterin Biosynthesis August 2015 Tetrahydrobiopterin plays an essential role in the production of aromatic amino acids, neurotransmitters and nitric oxide. |
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New Delhi Metallo-Beta-Lactamase July 2015 Antibiotics can save lives, but antibiotic-resistant strains of bacteria pose a dangerous threat |
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Receptor for Advanced Glycation End Products June 2015 RAGE recognizes sugar-modified proteins, contributing to an inflammatory response that plays a role in diabetes |
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Titin May 2015 The giant protein titin organizes the structure of muscle and gives them elasticity |
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Glucagon April 2015 Glucagon triggers the release of glucose into the blood, to power cells throughout the body |
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Phototropin March 2015 Phototrophins sense the level of blue light, allowing plants to respond to changing environmental conditions |
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Insulin Receptor February 2015 The cellular receptor for insulin helps control the utilization of glucose by cells |
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Cascade and CRISPR January 2015 Cascade and CRISPR help bacteria remember how to fight viral infection |
TAL Effectors December 2014 TAL-effectors are modular, DNA-reading proteins that can be used to edit DNA in living cells |
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Methyl-coenzyme M Reductase November 2014 Methanogens use sophisticated molecular tools to build methane |
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Ebola Virus Proteins October 2014 Structures of ebola virus proteins are giving new hope for fighting this deadly virus |
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Apoptosomes September 2014 Apoptosomes make life or death decisions in cells |
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Dynein August 2014 The motor protein dynein transports cellular cargo along microtubules |
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Microtubules July 2014 The largest filaments of the cytoskeleton provide tracks for transport throughout the cell |
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GFP-like Proteins June 2014 GFP-like proteins found in nature or engineered in the laboratory now span every color of the rainbow |
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Aquaporin May 2014 Aquaporins create a channel for water molecules to cross through cell membranes |
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RecA and Rad51 April 2014 Broken DNA strands may be repaired by matching sequences in a duplicate copy of the DNA |
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Neurotransmitter Transporters March 2014 Neurotransmitters are transported out of nerve synapses to end a signal transmission |
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Broadly Neutralizing Antibodies February 2014 Structural studies of broadly neutralizing antibodies are paving the way to vaccines for HIV, influenza and RSV |
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HIV Envelope Glycoprotein January 2014 Envelope protein attaches HIV to the cells that it infects and powers fusion of the virus with the cell membrane |
DNA Helicase December 2013 DNA helicase pries apart the two strands in a DNA double helix, powered by ATP |
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SNARE Proteins November 2013 SNARE proteins power the fusion of vesicles with membranes by forming a bundle of alpha helices |
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Proteasome October 2013 Proteasomes destroy damaged or obsolete proteins inside cells |
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Designed Protein Cages September 2013 Researchers are modifying natural proteins to design new self-assembling protein cages |
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Serotonin Receptor August 2013 Serotonin receptors control mood, emotion, and many other behaviors, and are targets for many important drugs |
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HIV Capsid July 2013 At the center of HIV, an unusual cone-shaped capsid protects the viral genome and delivers it into infected cells |
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Dermcidin June 2013 Small toxic peptides help protect us from bacterial infection |
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Ricin May 2013 The structure of ricin reveals how it kills cells and how vaccines can produce immunity against ricin poisoning |
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Actinomycin April 2013 Some antibiotics attack cells by intercalating between the bases in a DNA double helix |
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Erythrocruorin March 2013 Earthworms build a huge version of hemoglobin to carry oxygen |
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Proton-Gated Urea Channel February 2013 A channel that passes urea allows ulcer-producing bacteria to live in the stomach |
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Transfer-Messenger RNA January 2013 tmRNA rescues ribosomes that are stalled by damaged messenger RNA |
ABO Blood Type Glycosyltransferases December 2012 ABO blood types are determined by an enzyme that attaches sugars to proteins |
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Vitamin D Receptor November 2012 Vitamin D helps regulate the use of calcium throughout the body |
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Citric Acid Cycle October 2012 Eight enzymes form a cyclic pathway for energy production and biosynthesis |
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Pyruvate Dehydrogenase Complex September 2012 A huge molecular complex links three sequential reactions for energy production |
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cAMP-dependent Protein Kinase (PKA) August 2012 PKA delivers cellular signals by adding phosphates to proteins |
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Hypoxanthine-guanine phosphoribosyltransferase (HGPRT) July 2012 Cells salvage and recycle their obsolete DNA and RNA |
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Sliding Clamps June 2012 Sliding clamps slide along DNA strands and keep DNA polymerase on track during replication |
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Leptin May 2012 Problems with the appetite-controlling hormone leptin can lead to obesity |
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Ras Protein April 2012 Mutation of the growth-controlling ras protein can lead to cancer |
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Rhodopsin March 2012 In our eyes, rhodopsin uses the molecule retinal to see light |
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Aminoglycoside Antibiotics February 2012 Antibiotic-resistant bacteria build enzymes that destroy drugs like streptomycin |
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Messenger RNA Capping January 2012 Messenger RNA molecules are capped with an inverted nucleotide |
Complex I December 2011 A proton-pumping protein complex performs the first step of the respiratory electron transport chain |
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Toll-like Receptors November 2011 Toll-like receptors warn us about bacterial and viral infection |
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PDB Pioneers October 2011 A dozen historic structures set the foundation for the PDB archive |
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O-GlcNAc Transferase September 2011 Some protein functions are regulated when sugars are attached |
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Rhomboid Protease GlpG August 2011 Some proteases cut proteins embedded in cell membranes |
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DNA Methyltransferases July 2011 Cells add methyl groups to their DNA to encode additional epigenetic information |
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Glucansucrase June 2011 Bacteria adhere to our teeth by building sticky sugar chains |
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Cytochrome bc1 May 2011 A flow of electrons powers proton pumps in cellular respiration and photosynthesis |
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Nanobodies April 2011 Unusual antibodies from camels are useful in research and medicine |
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Integrase March 2011 HIV integrase allows HIV to insert itself into the genome of an infected cell |
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Integrin February 2011 Integrins forge flexible linkages between the infrastructure inside and outside of cells |
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Nitric Oxide Synthase January 2011 Nitric oxide gas is used as a rapid-acting hormone and as a powerful defense |
Adenovirus December 2010 Adenovirus has an icosahedral capsid with unusual cell-binding fibers |
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Inteins November 2010 Inteins splice themselves out of larger protein chains |
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Riboswitches October 2010 Special sequences of messenger RNA can bind to regulatory molecules and affect synthesis of proteins |
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Isocitrate Dehydrogenase September 2010 Atomic structures have revealed the catalytic steps of a citric acid cycle enzyme |
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Interferons August 2010 Interferons mobilize defenses against viral infection |
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Crystallins July 2010 A concentrated solution of crystallins refracts light in our eye lens |
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Epidermal Growth Factor June 2010 EGF is part of a family of proteins that controls aspects of cell growth and development |
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Parvoviruses May 2010 Viruses that cause distemper are surrounded by an icosahedral capsid |
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Concanavalin A and Circular Permutation April 2010 For some proteins, clipped and reassembled sequences can produce the same 3D shape |
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P-glycoprotein March 2010 P-glycoprotein pumps toxic molecules out of our cells |
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Enhanceosome February 2010 Enhanceosomes help decide the appropriate time to transcribe a gene |
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Ribosome January 2010 Ribosomes are complex molecular machines that build proteins |
Antifreeze Proteins December 2009 Small antifreeze proteins protect cells from damage by ice |
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Designed DNA Crystal November 2009 Small pieces of DNA have been engineered to form a nanoscale lattice |
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Sodium-Potassium Pump October 2009 Cells continually pump sodium ions out and potassium ions in, powered by ATP |
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Xanthine Oxidoreductase September 2009 Xanthine oxidoreductase helps break down obsolete purine nucleotides |
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Sulfotransferases August 2009 Sulfotransferases transfer sulfuryl groups in enzymatic reactions |
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Beta-secretase July 2009 Beta-secretase trims proteins in the cell and plays an important role in Alzheimer's disease |
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Vaults June 2009 Cells build huge vault containers constructed of a symmetric arrangement of many subunits |
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Influenza Neuraminidase May 2009 Neuraminidase is an important target for influenza drugs |
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Oct and Sox Transcription Factors April 2009 Transcription factors decide when particular genes will be transcribed |
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Hydrogenase March 2009 Hydrogenases use unusual metal ions to split hydrogen gas |
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Auxin and TIR1 Ubiquitin Ligase February 2009 The plant hormone auxin controls growth and response to light and gravity |
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Tobacco Mosaic Virus January 2009 A cylindrical arrangement of proteins protects a long strand of RNA in TMV |
Hsp90 December 2008 Heat shock proteins ensure that proteins remain folded and active under harsh conditions |
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Mechanosensitive Channels November 2008 Pressure-sensitive channels open when the internal pressure of a cell gets too high |
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Poly(A) Polymerase October 2008 Poly(A) polymerase adds a long tail of adenine nucleotides at the end of messenger RNA |
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Ribonuclease A September 2008 Ribonuclease cuts and controls RNA |
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Selenocysteine Synthase August 2008 Selenium is used in place of sulfur to build proteins for special tasks |
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Dengue Virus July 2008 Atomic structures of dengue virus are giving new hope for creation of a vaccine |
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Lactate Dehydrogenase June 2008 Our cells temporarily build lactate when supplies of oxygen are low |
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Prions May 2008 Mad cow disease is caused by prion proteins that misfold and aggregate |
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Adrenergic Receptors April 2008 Adrenaline stimulates a G-protein-coupled receptor, priming us for action |
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Cadherin March 2008 Adhesive cadherin proteins hold neighboring cells together |
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Small Interfering RNA (siRNA) February 2008 Our cells continually look for pieces of double-stranded RNA, a possible sign of viral infection |
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Circadian Clock Proteins January 2008 Circadian clock proteins measure time in our cells |
Oxidosqualene Cyclase December 2007 Oxidosqualine cyclase forms the unusual fused rings of cholesterol molecules |
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Multidrug Resistance Transporters November 2007 Many bacteria use multidrug resistance transporters to pump drugs and poisons out of the cell |
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Superoxide Dismutase October 2007 Superoxide dismutase protects us from dangerously reactive forms of oxygen |
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Citrate Synthase September 2007 Citrate synthase opens and closes around its substrates as part of the citric acid cycle |
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Anabolic Steroids August 2007 Anabolic steroids like testosterone are among the most common performance enhancing drugs |
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Thymine Dimers July 2007 Ultraviolet light damages our DNA, but our cells have ways to correct the damage |
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Fatty Acid Synthase June 2007 Fatty acids are constructed in many sequential steps by a large protein complex |
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Aconitase and Iron Regulatory Protein 1 May 2007 Aconitase performs a reaction in the citric acid cycle, and moonlights as a regulatory protein |
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Clathrin April 2007 Three-armed clathrin triskelions are used to build molecular cages involved in transport |
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Zinc Fingers March 2007 Zinc ions are used to strengthen small protein modules that recognize DNA |
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Exosomes February 2007 Exosomes destroy messenger RNA molecules after they have finished their jobs |
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Importins January 2007 Importins deliver proteins into the nucleus through the nuclear pore complex |
Transposase December 2006 Transposases shift genes around in the genome |
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Fibrin November 2006 Rod-shaped fibrin molecules link together to form blood clots |
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Cytochrome p450 October 2006 Cytochrome p450 detoxifies and solubilizes drugs and poisons by modifying them with oxygen |
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Elongation Factors September 2006 Protein synthesis requires the assistance of several elongation factors that guide each step |
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AAA+ Proteases August 2006 AAA+ proteases are ATP-powered molecular motors that thread protein chains through a hole |
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Amyloid-beta Precursor Protein July 2006 Cell-clogging amyloids form when proteins improperly aggregate |
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Luciferase June 2006 Organisms from fireflies to bacteria use luciferase to emit light |
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Glucose Oxidase May 2006 Glucose oxidase measures blood glucose level in biosensors |
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Hemagglutinin April 2006 Influenza virus binds to cells and infects them using hemagglutinin |
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Tissue Factor March 2006 Tissue factor senses damage to the body and triggers formation of a blood clot |
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Alpha-amylase February 2006 Amylases digest starch to produce glucose |
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Topoisomerases January 2006 Topoisomerases untangle and reduce the tension of DNA strands in the cell |
ATP Synthase December 2005 ATP synthase links two rotary motors to generate ATP |
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Acetylcholine Receptor November 2005 The neurotransmitter acetylcholine opens a protein channel, stimulating muscle contraction |
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Designer Proteins October 2005 Researchers have successfully designed entirely new proteins based on biological principles |
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Cholera Toxin September 2005 Many bacterial toxins have two parts: one that finds a cell, the other that kills it |
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Neurotrophins August 2005 Neurotrophins guide the development of the nervous system |
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TATA-Binding Protein July 2005 TATA protein tells RNA polymerase where to get started on a gene |
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Carotenoid Oxygenase June 2005 Light-sensing retinal molecules are built from colorful carotenoids in our diet |
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Self-splicing RNA May 2005 Special sequences of RNA are able to splice themselves |
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Kinesin April 2005 The motor protein kinesin carries cellular cargo along microtubules |
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T-Cell Receptor March 2005 Lymphocytes use T-cell receptors to patrol the body for foreign molecules |
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Major Histocompatibility Complex February 2005 MHC displays peptides on the surfaces of cells, allowing the immune system to sense the infection inside |
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Phenylalanine Hydroxylase January 2005 An unusual cofactor is used in the synthesis of aromatic amino acids |
Ubiquitin December 2004 Ubiquitin is used to tag obsolete proteins for destruction |
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Photosystem II November 2004 Photosystem II captures the energy from sunlight and uses it to extract electrons from water molecules |
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G Proteins October 2004 G proteins receive signals from cellular receptors and deliver them inside the cell |
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Catalase September 2004 Catalase protects us from dangerous reactive oxidizing molecules |
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Caspases August 2004 Caspases disassemble proteins during the process of programmed cell death |
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DNA Ligase July 2004 DNA ligase reconnects broken DNA strands, and is used to engineer recombinant DNA |
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Acetylcholinesterase June 2004 Acetylcholinesterase stops the signal between a nerve cell and a muscle cell |
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Serpins May 2004 Serpins are traps that capture dangerous proteases |
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Growth Hormone April 2004 Growth hormone brings together two copies of its cellular receptor |
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Calcium Pump March 2004 Atomic structures have captured the calcium pump in action |
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Glycolytic Enzymes February 2004 The ten enzymes of glycolysis break down sugar in our diet |
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Carbonic Anhydrase January 2004 Carbonic anhydrase solubilizes carbon dioxide gas so we can breathe it out |
Catabolite Activator Protein December 2003 CAP senses the level of sugar and mobilizes the proteins needed to utilize it |
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Simian Virus 40 November 2003 SV40 hijacks the cells it infects using only a handful of proteins |
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Trypsin October 2003 An activated serine amino acid in trypsin cleaves protein chains |
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Estrogen Receptor September 2003 Estrogen binds to receptors in the nucleus and affects key genes in development |
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Calmodulin August 2003 Calcium ions rapidly deliver signals to control processes such as muscle contraction, nerve signaling, and fertilization |
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Src Tyrosine Kinase July 2003 Growth signaling proteins play an important role in the development of cancer |
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Green Fluorescent Protein (GFP) June 2003 A tiny fluorescent protein from jellyfish has revolutionized cell biology |
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Hemoglobin May 2003 Hemoglobin uses a change in shape to increase the efficiency of oxygen transport |
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RNA Polymerase April 2003 RNA polymerase transcribes genetic information from DNA into RNA |
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lac Repressor March 2003 A genetic circuit controls the production of lactose-utilizing enzymes in bacteria |
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Potassium Channels February 2003 Potassium channels allow potassium ions to pass, but block smaller sodium ions |
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Serum Albumin January 2003 Serum albumin delivers fatty acid molecules through the bloodstream |
Cytochrome c December 2002 Cytochrome c shuttles electrons during the production of cellular energy |
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Ferritin and Transferrin November 2002 Ferritin and transferrin manage our essential stores of iron ions |
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Dihydrofolate Reductase October 2002 DHFR is a target for cancer chemotherapy and bacterial infection |
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HIV Reverse Transcriptase September 2002 HIV builds a DNA copy of its RNA genome, providing a unique target for drug therapy |
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Chaperones August 2002 Chaperones help new proteins fold into their proper shape |
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p53 Tumor Suppressor July 2002 p53 tumor suppressor protects the body from DNA damage and cancer |
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Glutamine Synthetase June 2002 Glutamine synthetase monitors the levels of nitrogen-rich amino acids and decides when to make more |
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Penicillin-binding Proteins May 2002 Penicillin attacks the proteins that build bacterial cell walls |
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Anthrax Toxin April 2002 Anthrax bacteria build a deadly three-part toxin |
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Bacteriorhodopsin March 2002 Bacteriorhodopsin pumps protons powered by green sunlight |
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Nitrogenase February 2002 Nitrogenase uses an exotic cluster of metals to fix atmospheric nitrogen into bioavailable ammonia |
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Thrombin January 2002 Thrombin activates the molecule that forms blood clots |
Glycogen Phosphorylase December 2001 Glycogen phosphorylase releases sugar from its cellular storehouse |
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DNA November 2001 Atomic structures reveal how the iconic double helix encodes genomic information |
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Photosystem I October 2001 Photosystem I captures the energy in sunlight |
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Antibodies September 2001 Antibodies search for foreign molecules in the blood |
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Poliovirus and Rhinovirus August 2001 Crystallographic structures reveal the atomic details of viruses and how to fight them |
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Actin July 2001 Cells are supported by a cytoskeleton of protein filaments |
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Myosin June 2001 Molecular motors fueled by ATP power the contraction of muscles |
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Cyclooxygenase May 2001 Aspirin attacks an important enzyme in pain signaling and blood clotting |
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Aminoacyl-tRNA Synthetases April 2001 Aminoacyl-tRNA synthetases ensure that the proper amino acids are used to build proteins |
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Transfer RNA March 2001 Transfer RNA translates the language of the genome into the language of proteins |
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Insulin February 2001 The hormone insulin helps control the level of glucose in the blood |
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Alcohol Dehydrogenase January 2001 Alcohol dehydrogenase detoxifies the ethanol we drink |
Pepsin December 2000 Pepsin digests proteins in strong stomach acid |
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Rubisco November 2000 Rubisco fixes atmospheric carbon dioxide into bioavailable sugar molecules |
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Ribosomal Subunits October 2000 Atomic structures of the ribosomal subunits reveal a central role for RNA in protein synthesis |
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Lysozyme September 2000 Lysozyme attacks the cell walls of bacteria |
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Restriction Enzymes August 2000 Bacterial enzymes that cut DNA are useful tools for genetic engineering |
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Nucleosome July 2000 The cell's genome is stored and protected by nucleosomes |
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HIV-1 Protease June 2000 Atomic structures of HIV protease have been used to design powerful drugs for HIV therapy |
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Cytochrome c Oxidase May 2000 Cytochrome oxidase extracts energy from food using oxygen |
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Collagen April 2000 Sturdy fibers of collagen give structure to our bodies |
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DNA Polymerase March 2000 DNA polymerase makes an accurate copy of the cell's genome |
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Bacteriophage phiX174 February 2000 Bacteriophage phiX174 hijacks bacterial cells and forces them to make new copies of the virus |
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Myoglobin January 2000 Myoglobin was the first protein to have its atomic structure determined, revealing how it stores oxygen in muscle cells. |