Cornell researchers have found a new and potentially more accurate way to see what proteins are doing inside living cells - using the cells' own components as built-in sensors.

Cornell researchers have found a new and potentially more accurate way to see what proteins are doing inside living ...

Advanced imaging technologies are uncovering surprising roles for CD8+ T cells—not just in immune defense, but also in supporting tissue repair and regeneration.

Whether antiretroviral therapy (ART) is always completely suppressive, or HIV might continue to replicate at low levels despite ART in some people with HIV (PWH), is still debated. Here, we ...

As the world struggles with the ongoing COVID-19 pandemic, unprecedented obstacles have continuously been traversed as new SARS-CoV-2 variants continually emerge. Infectious disease outbreaks are ...

The Innovation Center of NanoMedicine has summarized the results of its collaborative research with Professor Kanjiro ...

Here, we establish the critical role of the Plenty of SH3 Domains (POSH) scaffold protein in coordinating signals from all three pathways to support CD8 T cell differentiation and fate. Using novel ...

Schematic representation of the structure of the SARS-CoV-2 N protein; N-terminal domain (NTD), C-terminal domain (CTD), IDR1 (light blue color), SR-IDR2 (orange color), IDR3 (dark blue color) and the ...

Scientists have developed an explainable AI tool called CANYA that deciphers the chemical language proteins use to determine whether they form clumps, which are linked to diseases like Alzheimer’s.