New CRISPR tool opens up more of the genome for editing
Enzyme can target almost half of the genome’s “ZIP codes” and could enable editing of many more disease-specific mutations.
Enzyme can target almost half of the genome’s “ZIP codes” and could enable editing of many more disease-specific mutations.
Biological engineers design RNA circuits that enable precise control over the dose of therapeutic protein a patient receives.
Biophysicist will investigate the biology of RNA aggregation.
Scientists leverage one step, unbiased method to characterize the binding preferences of more than 70 human RNA-binding proteins.
Scientists identify the first known network consisting of three types of regulatory RNAs.
New discovery suggests that all life may share a common design principle.
With SHERLOCK, a strip of paper can now indicate presence of pathogens, tumor DNA, or any genetic signature of interest.
“REPAIR” system edits RNA, rather than DNA; has potential to treat diseases without permanently affecting the genome.
Biological engineers identify genes that protect against protein linked to Parkinson’s disease.
Awarded annually by The Rockefeller University, the award recognizes accomplishments of outstanding women in science.
New system adapts tool known for gene editing; to be used in rapid, inexpensive disease diagnosis.
Researchers program RNA nanoparticles that could protect against the virus.
Portable tool could help scientists learn more about cells’ roles in many diseases.
Newly discovered genetic code controls bacterial survival during infections.
Biologists have discovered how an enigmatic type of RNA helps to control cell fate.