A Harvard team finds a rare fossil in Nova Scotia while retracing the footsteps of Alfred Romer, the paleontologist who identified a gap in the record from the period when animals first crawled out of the ocean and began to walk on four legs.
Using high-speed cameras, Harvard researchers have shown that ant-mimicking jumping spiders don’t walk on six legs in an attempt to appear more ant-like, but instead walk with all eight and take tiny, 100-millisecond pauses to lift their front legs to make them resemble ant antennae.
A Harvard study suggests a process known as synergistic epistasis enables humans to survive with an unusually high mutation rate.
The extreme winter of 2013–2014 created conditions for a Harvard grad student to expand his work on green anole lizards into study of natural selection in action.
After discovering that the complexity inherent in birdsongs results from a controllable instability in the organ used to create them, researchers at the Harvard Paulson School have developed a mimicking device.
Digitization of Harvard’s fossil insect collection produced a surprising twist: The return to Germany of hundreds of Eocene insects frozen in amber.
New research led by Professor Jeff Lichtman opens a path to deeper insight on brain action behind certain behaviors.
Marking Thoreau’s 200th birthday, Harvard University Herbaria will post images of more than 800 plants the author and naturalist collected, part of a larger digitization effort.
A team of researchers has found that the stability plays a key role in the evolution of different protein structures.
A new Harvard study shows that people create visual images to accompany their inner speech even when they are prompted to use verbal thinking, suggesting that visual thinking is deeply ingrained in the human brain.
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For the first time, researchers describe the types of cells generated in brain organoids, networks of nerve cells, and show the greater diversity, complexity, and response to stimulation developed for nine months and longer.
Research led by Hopi Hoekstra breaks new ground by uncovering links between the activity of specific genes and parenting differences across species
Digital technology and big data will power the next big advance in the business of farming, the head of a “digital agriculture” firm told a Harvard audience.
Harvard’s Origins of Life Initiative has grown along with the rise in interest in how life first arose on Earth and whether it exists on other planets.
An Origins of Life researcher has created a chemical system that mimics early cell behavior.
Researchers have found that due to warming temperatures, phytoplankton can now grow under Arctic sea ice, dramatically changing the ecology.
A mathematical framework can explain how a plant stem’s “sense of self” contributes to its growth upward or downward.
New research not only sheds new light on how hearing works, but could help clarify how it deteriorates over time.
The Wyss Institute and Harvard Medical School’s Personal Genome Project are collaborating with Lumos Labs, the makers of Lumosity, to investigate the relationship between genetics and memory, attention, and reaction speed.
Keith Ellenbogen captures the ecosystems deep within the oceans, bringing them to life through his underwater photography.
New findings have the potential to help researchers more accurately identify microbiome enzymes and quantify their relative abundance.
Using ultra-fast MRI scans, scientists are able to track rapid oscillations in brain activity that previously would have gone undetected, a development that could open the door to understanding fast-occurring cognitive processes that once appeared off-limits to scientists.
A Harvard study shows that although an optimistic outlook may help women live longer, one other possibility is that higher optimism directly impacts our biological systems.
Studies have suggested that the Zika virus enters neural progenitor cells by grabbing onto a specific protein called AXL on the cell surface. Now, scientists at the Harvard Stem Cell Institute and Novartis have shown that this is not the only route of infection. The scientists demonstrated that Zika infected neural progenitor cells even when the cells did not produce the AXL protein.
Harvard Stem Cell Institute researchers have used a colorful cell-labeling technique to track the development of the blood system and trace the lineage of an adult blood cell traveling through the vast networks of veins, arteries, and capillaries back to its parent stem cell in the marrow.
Scientists have shown that to interrupt the development of pigment cells that form their stripes, African striped mice and chipmunks both use a gene that until now had been associated primarily with cranio-facial development.
Startup Magenta Therapeutics licenses technologies from Harvard, Massachusetts General Hospital, and Boston Children’s Hospital that could help transform treatment.
Stem cell science is accelerating development of therapies for diabetes, ALS, other diseases, researchers tell HUBweek sessions.
Your brain is able to stitch together a coherent 360-degree panorama of the world around you, and now researchers are beginning to understand how.
Using a machine-learning algorithm, researchers were able to “train” a computer to recognize the neural patterns associated with various scents, and identify whether specific odors were present in a mix of smells.
A new species of truffle fungus, related to the delicacy prized in Southern Europe, was found at the Arboretum by an undergrad researcher.
A new drug compound developed by researchers at Massachusetts General Hospital and the Harvard Stem Cell Institute to treat acute myeloid leukemia is gentle enough to use with patients too frail to endure chemotherapy.
Two recent studies have shown that cells early in development can be marked with a genetic barcode that later can be used to reconstruct their lineage.
In an effort to get a clearer picture of how the brain and the connections between its regions change throughout development, Harvard scientists and researchers from three other universities will share a $14 million grant to support one of the most comprehensive brain-imaging studies ever undertaken.
A study found that both Rusingoryx atopocranion, a relative of the wildebeest, and hadrosaur dinosaurs evolved large bony domes on their foreheads, which were likely used as resonating chambers to warn of predators and communicate with others.
Despite a visual system vastly different from that of humans, tests showed the bird could successfully identify both Kanizsa figures and occluded shapes. The findings suggest that birds may process visual information in a way that is similar to humans.
The neural architecture in the auditory cortex — the part of the brain that processes sound — of profoundly deaf and hearing people is virtually identical, a new study has found. The study could point the way toward potential new avenues for treating deafness.
Chromatic aberration may explain how cephalopods can demonstrate such remarkable camouflage abilities despite being able to see only in black and white.
The findings of Professor Jeff Lichtman and postdoctoral fellow Joshua Morgan have unveiled unexpected neural complexity in the thalamuses of mice, potentially challenging a number of core tenets of brain science.
Harvard chemists have created a platform for discovering antibiotics that they hope will shorten the time and difficulty involved in measuring their effectiveness, even as the body’s resistance to current antibiotics is rising.
Harvard University has granted a license to Aldatu Biosciences Inc., an early-stage diagnostics development company, for a novel genotyping platform that may help clinicians treating HIV to determine more quickly the most effective medication for each patient.
A new study shows that gaze-following develops in monkeys in a way that’s nearly identical to humans, suggesting that the behavior has deep evolutionary roots.
Robert A. Lue, faculty director of the Harvard Ed Portal, offered his audience insight into his upcoming HarvardX course “Cell Biology: Mitochondria,” during a talk on April 21.
Using phage-assisted continuous evolution (PACE) technology developed by Harvard professor David Liu and his co-workers, a team of researchers has evolved new forms of a natural insecticidal protein called “Bt toxin,” which can be used to help control Bt toxin resistance in insects.
Cassandra Extavour is the author of a new study that points to a different mechanism as an ancestral process for specifying germ cells.
Two Harvard-trained researchers, who bonded while battling epidemics in West Africa, are developing diagnostic technology to help women monitor their own health and fertility.
A state-of-the-art microscope built by Harvard researchers will allow scientists to capture 3-D images of all the neural activity in the brains of tiny, transparent C. elegans worms as they crawl.
Harvard’s John A. Paulson School of Engineering and Applied Sciences, Center for Brain Science, and Department of Molecular and Cellular Biology have been awarded more than $28 million to develop advanced machine learning algorithms by pushing the frontiers of neuroscience.
A Graduate School of Education alumna brings her family history into the dance studio as she teaches children with disabilities the art of movement and the rewards they can reap.
A research team at the Wyss Institute has developed a novel microfluidic device in which blood flows through a lifelike network of small “vessels.” Using automated pressure sensors and a proprietary algorithm, the data acquired is analyzed in real time and precisely predicts when a certain blood sample will obstruct the blood vessel network.