HHMI researchers have identified 27 genes in brain stem cells that are prone to a type of DNA damage called double-strand breaks.
New study suggests why mice with cystic fibrosis mutations can stave off bacterial infections in their lungs.
New experiments at HHMI's Janelia Research Campus show that activity in the cortex is critical for enacting a learned skill.
The MouseLight Project team at Janelia unveils a microscope and method for long-range tracing of neurons in the mouse brain.
New study suggests that graded changes in gene expression are an organizing principle for CA1 pyramidal cells in the hippocampus.
On February 24, HHMI investigator Bonnie Bassler will deliver a talk, “Tiny Conspiracies: Cell-to-Cell Communication in Bacteria,” at 7:00 p.m. at Janelia Research Campus.
Research uncovers new information about the biological processes that help ensure that two fly species don't interbreed.
HHMI researchers have discovered a molecular mechanism that enables plants to detect when they are in the shade of other plants and adapt by speeding up their growth.
Using an advanced imaging system with adaptive optics, Janelia scientists have uncovered new details about how the brain processes visual information.
New research examines why some children born with heart defects also have developmental disabilities.
Researchers learn more details about how CRISPR works in cells.
Scientists show they can control whether mice perceive a taste as bitter or sweet by activating two small areas of the brain.
HHMI investigators Karl Deisseroth and Helen Hobbs are among five scientists honored for transformative advances toward understanding living systems and extending human life.
HHMI scientists have identified a set of proteins that plays a surprisingly broad role in guiding tissue formation in plant roots.
Within less than a second, the new IsoView microscope produces images of entire organisms, such as a zebrafish or fruit fly embryo, with enough resolution in all three dimensions that each cell appears as a distinct structure.
HHMI's Paul Modrich shares 2015 Nobel Prize in Chemistry with Tomas Lindahl and Aziz Sancar for studies of DNA repair.
New research indicates individual human neurons may harbor up to 1,000 genetic mutations.
HHMI Investigator Stephen Elledge of Brigham and Women's Hospital shares the 2015 Albert Lasker Basic Medical Research Award with Evelyn Witkin of Rutgers University.
New imaging methods dramatically improve the spatial resolution provided by structured illumination microscopy, one of the best imaging techniques for seeing inside living cells.
HHMI scientists have discovered how the most common genetic defect in amyotrophic lateral sclerosis kills nerve cells.
HHMI researchers solve a longstanding mystery about the origin of new cells in the liver.
A lipid molecule called EET helps blood-forming stem cells replenish the immune system.
New research begins to explain how plants separate microbes they like from those they don't like.
HHMI scientists have profiled key features of the genetic material inside three types of brain cells and found vast differences in the patterns of chemical modifications that affect how the genes in each type of neuron are regulated.
New studies provide the first genetic evidence that humans interbred with Neanderthals in Europe.
New technology developed by HHMI researchers makes it possible to test for current and past infections with any known human virus by analyzing a single drop of blood.
Nueva tecnología desarrollada por investigadores del HHMI hace que se pueda utilizar una gota de sangre de una persona para analizar infecciones presentes y pasadas con cualquier virus humano conocido.
New research hints at strategies fruit flies use to keep track of where they are going, even when it's dark.
Studying fruit fly larvae, Janelia scientists have mapped the entire neural circuit involved in combining vibration and pain sensations used in triggering an escape behavior.
Negative emotions associated with hunger can make it hard to maintain a diet and lose weight. Hunger-sensitive cells in the brain may help explain that struggle.
HHMI researchers develop a new single-cell imaging technique that reveals the copy numbers and locations of thousands of RNA molecules inside a cell.
HHMI researchers identify a rare genetic mutation that tamps down immune response to influenza.
HHMI scientists have designed a revolutionary "3D printer" for small molecules that could open the power of customized chemistry to many.
Scientist at Janelia Research Campus wins The Brain Prize for helping to develop a tool that advances our understanding of how the brain's networks process information.
A new way of thinking challenges standard notions about what a herpes vaccine should look like.
Scientists at Janelia Research Campus have identified a neural circuit that connects motor planning to movement.
A new tool developed at HHMI's Janelia Research Campus lets scientists permanently mark neurons that are active at a particular time.
New studies by HHMI scientists show how cells use sophisticated signaling mechanisms to control production of interferon.
HHMI researchers have identified a neural circuit in the subfornical organ that regulates thirst in mice.
When battling a chronic infection, killer T cells must take a break so they can continue to fight off infection.
Janelia researchers show that Hox proteins trigger gene activity through weak interactions at previously unrecognized DNA binding sites in the genome.
Scientists have determined new structures of an essential cellular recycling machine with near atomic-level detail. The structures, which show a protein called NSF alone and interacting with its target, a protein complex called SNARE that is formed when membranes fuse together.
HHMI scientists and their colleagues discover a new mechanism of protein synthesis.
Researchers at HHMI's Janelia Research Campus have used motion-capture technology to reveal new insight into the sophisticated information processing and acrobatic skills of dragonflies on the hunt.
HHMI investigator Jennifer Doudna is among six scientists honored for transformative advances toward understanding living systems and extending human life.
Lattice light sheet microscopy, a new imaging platform developed at Janelia, lets biologists see 3-D images of subcellular activity in real time.
Eric Betzig, director de grupo en Janelia, gana el Premio Nobel por el desarrollo de la microscopía de fluorescencia de super-resolución.
Janelia group leader Eric Betzig wins Nobel Prize for the development of super-resolved fluorescence microscopy.
Retracing the ancient battles between jumping genes and the defenses human cells deploy to keep them in check.
Janelia scientists are learning how the brain switches between random and strategic modes.
HHMI scientists have shown that previously unrecognized groups contributed to the genetic mix now present in most modern-day Europeans.
HHMI Investigator Sangeeta Bhatia is recognized for designing and commercializing miniaturized technologies with applications to improve human health.
HHMI Investigator Peter Walter of UCSF shares the 2014 Albert Lasker Basic Medical Research Award with Kazutoshi Mori of Kyoto University.
New research by HHMI scientists shows that the emotional memory of an experience is malleable.
Janelia scientists are learning how the brain makes sense of new places.
HHMI scientists have devised a technique to identify hard-to-find gene mutations that crop up in a fraction of the body's cells.
By studying dirty flies, Janelia scientists hope to learn how animals carry out sequences of movements that make up more complex behaviors.
Big data can mean big headaches for scientists. A new library of software tools from Janelia speeds analysis of data sets so large and complex they would take days or weeks to analyze on a single workstation—if a single workstation could do it at all.
Janelia researchers develop a new computational method that can essentially automate much of the time-consuming process of reconstructing an animal's developmental building plan cell by cell.
HHMI and GBMF announce the establishment of an Advanced Imaging Center at Janelia that will make leading-edge imaging technologies more widely available to the scientific community before the instruments are available commercially.
Every millisecond counts when a fruit fly is being hunted by a damselfly. Janelia scientists find that fruit flies can deploy two escape behaviors, depending on circumstances.
HHMI researchers find that a single-letter change in the genetic code is enough to generate blond hair in humans.
HHMI scientists develop new tool to silence neurons with an unprecedented level of control.
Janelia researchers speed up image-processing time and get sharper microscopy images by employing techniques used by astonomers and ophthalmologists.
John P. Donoghue, Director of the Institute for Brain Science at Brown University, will speak on April 30 at 7PM at Janelia.
HHMI researchers have tested the olfactory capacity of human volunteers and found that humans are capable of discriminating at least one trillion different odors.
HHMI researchers show that rising temperatures can cause spread of malaria to areas where the disease had not been endemic historically.
Investigadores del HHMI demuestran que el aumento de temperaturas puede causar la dispersión de la malaria en zonas donde la enfermedad no ha sido endémica históricamente.
Howard Hughes Medical Institute (HHMI) scientists have created a portrait of a DNA-snipping protein called Cas9, a powerful research tool used in many labs for genome editing.
New research from HHMI scientists reveals how a foreign-DNA-destroying system, known as CRISPR, efficiently locates its DNA targets within a bacterial genome.
By studying which genes modern humans still retain from our Neanderthal ancestors, researchers are able to tell a clearer story about the biological impact of human-Neanderthal interbreeding.
HHMI seeks to appoint up to 25 new biomedical researchers through a national open competition.
HHMI researchers identify a potential Achilles heel in the oncogene K-Ras.
A new technique developed by Janelia researchers allows scientists to use electron beams to determine protein structure from tiny crystals.
New evidence suggests that aneuploidy patterns of chromosome deletion or amplification that are recurrent among tumors actually represent a driving force during tumor evolution and are very frequent in cancer.
HHMI researchers have discovered that the pool of inactive HIV viruses that lingers silently in a patient’s body is larger than expected. The viruses continue to be a threat because they retain the ability to become active even after treatment with the best HIV drugs.
HHMI researchers have developed a mouse model of scleroderma. Their studies have uncovered some of the molecular pathways that go awry to cause the disease.
Neurons deep in the fly’s brain tune in to some of the same basic visual features that neurons in bigger animals such as humans pick out in their surroundings. The new research is an important milestone toward understanding how the fly brain extracts relevant information about a visual scene to guide behavior.
HHMI researchers have designed an inhibitor that can reduce the expression of the mutated gene that causes hypertrophic cardiomyopathy, a potentially fatal heart condition.
La Real Academia de las Ciencias Sueca anunció que los investigadores del HHMI, Randy W. Schekman y Thomas C. Südhof, y James E. Rothman de la Universidad de Yale son los ganadores del Premio Nobel de Fisiología o Medicina 2013 por sus descubrimientos sobre la maquinaria que regula el tráfico de vesículas, un importante sistema de transporte de nuestras células.
The Nobel Assembly at the Karolinska Institute announced that HHMI investigators Randy W. Schekman and Thomas C. Südhof, and Yale's James E. Rothman are the recipients of the 2013 Nobel Prize in Physiology or Medicine for their discoveries of machinery regulating vesicle traffic, a major transport system in our cells.
Janelia scientists launch collaboration to develop a new generation of devices to detect neural activity.
Some breast cancer cells have a leg up on survival—the genes they express make them more likely to spread and prosper in bone tissue.
Scientists have discovered that an active ingredient in an over-the-counter skin cream slows or stops the effects of Parkinson’s disease on brain cells.
New thinking and technological innovation help Janelia researchers piece together a complex map of the neuronal connections that flies use to detect motion.
By activating a subset of brain cells in mice, researchers changed the way the animals remembered a particular setting.
New research reveals the cellular network that activates temperature-sensitive changes in an infectious fungus.
A new protein engineered by scientists at the Janelia Farm Research Campus fluoresces brightly each time it senses calcium, giving the scientists a way to visualize neuronal activity. The new protein is the most sensitive calcium sensor ever developed and the first to allow the detection of every neural impulse.
New research reveals details of changing DNA methylation patterns as the brain matures.
Proteins engineered to bind enhancer regions of the genome offer researchers a window into how genes are activated.
Scientists have identified a gene that enables wheat crops to fight off stem rust, a dreaded fungus that blights wheat fields with rusty brown lesions and reduces yields.
When injected into mice immediately following a traumatic event, a new drug prevents the animals from developing memory problems and increased anxiety that are indicative of post-traumatic stress disorder.
In one of the first successful attempts at genetically engineering mosquitoes, researchers have altered the way the insects respond to odors, including the smell of humans and the insect repellant DEET.
Malaria parasites infecting human red blood cells send packets of information between cells to coordinate group activity. When the parasites are under stress, the communication increases their ability to develop into a new stage of the life cycle.
New research shows that about 10 percent of severe cases of congenital heart disease are caused by genetic mutations that are absent in the parents of affected children.
Meet the 2013 HHMI Investigators
Meet the 2013 HHMI Investigators
Meet the 2013 HHMI Investigators
Meet the 2013 HHMI Investigators