Study details a link between inflammation and cancer
Timing of inflammation determines whether potentially cancerous mutations may arise.
Computer model enables design of complex DNA shapes
Engineers computer-design the most complicated 3-D structures ever made from DNA.
A double-edged sword
An enzyme key to DNA repair can worsen tissue damage caused by stroke and organ transplantation.
High-speed biologics screen
Engineers devise technology for rapidly testing drug-delivery vehicles in zebrafish.
Keeping it simple (for a bioinformatician)
Alumnus strikes delicate balances in big data — helping define the future of health care.
Mastering the biological and engineering worlds
Rahul Sarpeshkar bridges biology and engineering to advance research and applications in biotechnology, medicine, and supercomputing.
Fast way to measure DNA repair
Test analyzing cells’ ability to fix different kinds of broken DNA could help doctors predict cancer risk.
Tiny particles may pose big risk
Some nanoparticles commonly added to consumer products can significantly damage DNA.
Unusual suspects
Computer models plus observations of RNA inside a cell help scientists home in on a short list of interesting RNA ‘machines.’
Solving chromosomes’ structure
Scientists find that loops of DNA are key to tightly packing genetic material for cell division.
DNA damage may cause ALS
New study finds link between neurons’ inability to repair DNA and neurodegeneration.
An easier way to control genes
New method for turning genes on and off could enable more complex synthetic biology circuits.
Detecting DNA in space
Researchers, in a step toward analyzing Mars for signs of life, find that gene-sequencing chip can survive space radiation.