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Unlocking how the new Alzheimer’s drug lecanemab works

As with many cutting-edge therapies, we know more about the drug's effectiveness than we do about how it actually operates. A new study reveals a possible mechanism for its impact on patients.

A conversation with Ashton Murray, Rockefeller’s Chief Diversity Officer

Murray discusses developing strategies and programming grounded in the belief that a true community draws strength from its individuals.

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Boosters are key to protecting pregnant individuals and newborns against the worst effects of COVID

Patients with a specific cocktail of COVID exposure had the highest level of antibodies against SARS-CoV-2 and its variants, which also provided a strong immunological shield for their babies.

Rockefeller community symposium brings together scientists and local gardeners

Sponsored by the Office for Diversity, Equity, and Inclusion, the event brought together land stewards from across the city in an effort to make soil science more accessible to the local community.

A scent paradise for flies 

One clever way to observe the neural activity of Drosophilae: build them a custom fly treadmill and tempt them with the tangy perfume of apple cider vinegar.

Researchers find an epigenetic key that unlocks common deadly cancers

In skin, some aberrant adult epidermal stem cells turn on SOX9, kickstarting a process that ultimately activates cancer genes.

Kivanç Birsoy named a 2023 Blavatnik National Awards finalist

Birsoy is honored for groundbreaking research uncovering metabolic weaknesses of diseased cells, such as cancer, while shedding light on debilitating mitochondrial diseases and rare genetic disorders.

An immune flaw may cause West Nile virus’s deadliest symptoms

With 40% of encephalitis cases now explained by an autoimmune deficiency, West Nile virus "is by far the best understood human infectious disease in the world. It’s stunning.”

Probing the dynamic forces that move 37 trillion cells in the human body

Gregory Alushin reveals fundamental truths about cellular biomechanics by studying how the wiggly protein strands known as actin filaments bend and flex, crisscross each other, and have tugs of war.

How one of nature's most fundamental molecules forms

New high-resolution images of the large ribosomal subunit shed light on how human ribosomes are assembled.