Through
4/26
Penn Upward Bound high school students from West Philadelphia got a tour of the Penn Smart Aviary, GRASP Lab, and the Penn Vet Working Dog Center during a visit to Pennovation Works.
Researchers shed light on archea, a single cell microorganism, to discover how proteins determine what shape a cell will take and how that form may function.
Researchers from Penn and Princeton develop a model to evaluate how reputation and indirect reciprocity affects cooperative behaviors.
In a new study, biology and psychology researchers show how existing color vocabularies constrain future options for efficient color vocabularies.
Over a decade, researchers from Penn studied coral species in Hawaii to better understand their adaptability to the effects of climate change.
A pair of proteins, YAP and TAZ, could contribute to the development of healthy, strong bones by directing early cell movement and blood vessel generation.
A new collaborative study offers a better understanding of genes and variants responsible for skin color, providing insights into human evolution and local adaptation.
New research from Penn Medicine shows suppressing these neurons may be a promising target for therapies to treat stress-related sleep disorders, like insomnia and PTSD.
Researchers from the School of Arts & Sciences show that, when it comes to learning and honing different skills, what’s better for the individual isn’t always better for the group.
New research from Penn Medicine uncovers a link between a single enzyme and complex social behaviors in ants.
According to Colleen Tewksbury of the School of Nursing, research suggests that L-theanine may help support stress management, sleep, and potentially weight management.
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Scott Hensley of the Perelman School of Medicine is working on a flu vaccine to provide protection against 20 subtypes of flu that may pose a pandemic threat in the future.
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A study by César de la Fuente of the Perelman School of Medicine and colleagues used AI to recreate molecules from ancient humans that could be potential candidates for antimicrobial treatments.
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A study by Christoph Thaiss and Maayan Levy of the Perelman School of Medicine and colleagues finds that long COVID’s neurological symptoms, like brain fog, memory loss, and fatigue, may stem from serotonin reduction.
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A study by Christoph Thaiss and Maayan Levy of the Perelman School of Medicine and colleagues suggests that serotonin could be a target for long COVID treatment.
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A study by Christoph Thaiss and Maayan Levy of the Perelman School of Medicine and colleagues suggests that several current hypotheses for the pathophysiology of long COVID are linked by a single pathway that is connected by serotonin reduction.
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