Bioengineering | Penn Today

Four microscopic views of red blood cells.

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Centuries after discovery, red blood cells still hold surprises

In a new collaborative study, researchers at Penn turned to mechanical engineering to understand how blood clots can compact, even without platelets.

What ever-growing incisors can teach us about genetic disease

An interdisciplinary team of researchers approaches the question ‘How do teeth mineralize?’ by analyzing the physical, biological, and genetic properties of teeth for real-world clinical applications in the future.

2 min. read

Venom on the Fang of a Diamondback Rattlesnake

AI finds hundreds of potential antibiotics in snake and spider venom

Research from the lab of César de la Fuente on an AI-powered screen of global venom libraries uncovers dozens of promising drug candidates.

2 min. read

Toxic fungus to cancer cure? New compound exhibits antileukemia ‘potential’

In a Q&A, Xue (Sherry) Gao of the School of Engineering and Applied Science discusses her team’s discovery of fungal RiPPs and their potential impact on cancer care.

$2.6M NIH grant backs search for genetic cure in deadly heart disease

Sherry Gao, Presidential Penn Compact Associate Professor in chemical and biomolecular engineering and in bioengineering at Penn Engineering is the co-recipient of a $2.6 million grant from the National Heart, Lung, and Blood Institute of the National Institutes of Health to develop new gene editing tools that could address one of the underlying mutations that causes hypertrophic cardiomyopathy, a genetic disease that thickens the heart’s walls, making it harder for the organ to pump blood.

Penn researchers turn a toxic fungus and ‘King Tut’s curse’ into a tool for fighting cancer

School of Engineering and Applied Science engineering researchers have modified a fungus that may have caused lung disease and illness to benefit human health, with quotes from Xue (Sherry) Gao.

The actual chip of human leukemia bone marrow where chambers and channels were filled with food dyes.

‘Leukemia-on-a-chip’ could transform CAR T blood cancer treatments

In a collaborative effort with NYU, Penn researchers have helped pioneer a novel 3D platform that mimics the human bone marrow and immune environment, enabling more predictive testing of cancer immunotherapy success in patients, including CAR T cell therapies.

3 min. read

Qiuyue Nie and Maria Zotova, from left, purify samples of the fungus in a lab.

Penn engineers turn toxic fungus into anti-cancer drug

Penn-led researchers have isolated a new class of molecules from Aspergillus flavus, a toxic crop fungus, and modified it into a promising cancer-killing compound

2 min. read

Researchers turn a toxic fungus into cancer-fighting drug

A study by Xue (Sherry) Gao of the School of Engineering and Applied Science and colleagues found potent cancer-killing effects in the deadly Aspergillus flavus fungus, which was linked to rumors of a “pharaoh’s curse.”

Hand holding a blood vial that reads "complement (C3 + C4)"

Decoding ancient immunity networks

A collaborative team from Penn Medicine and Penn Engineering have unraveled the mathematics of a 500-million-year-old protein network that “decides” which foreign materials are friend or foe.

5 min. read

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Centuries after discovery, red blood cells still hold surprises

What ever-growing incisors can teach us about genetic disease

AI finds hundreds of potential antibiotics in snake and spider venom

Toxic fungus to cancer cure? New compound exhibits antileukemia ‘potential’

$2.6M NIH grant backs search for genetic cure in deadly heart disease

Penn researchers turn a toxic fungus and ‘King Tut’s curse’ into a tool for fighting cancer

‘Leukemia-on-a-chip’ could transform CAR T blood cancer treatments

Penn engineers turn toxic fungus into anti-cancer drug

Researchers turn a toxic fungus into cancer-fighting drug

Decoding ancient immunity networks