In Mendelian inheritance patterns, you receive one version of a gene, called an allele, from each parent. These alleles can be dominant or recessive. Non-Mendelian genetics don’t completely follow ...

Researchers identified biallelic variants in RNU2-2 as the cause of a recessive neurodevelopmental disorder marked by ...

A collaborative research team led by QIAN Wenfeng from the Institute of Genetics and Developmental Biology (IGDB) of the Chinese Academy of Sciences and Peking University has developed a plant gene ...

The COVID-19 pandemic gave us tremendous perspective on how wildly symptoms and outcomes can vary between patients experiencing the same infection. How can two people infected by the same pathogen ...

Forty years ago, a postdoctoral researcher named James McGrath who would go on to spend more than three decades as a clinical geneticist and research scientist at Yale, made a discovery that advanced ...

Multiple forms of double-stranded RNA (blue, magenta, orange structures) cross cell membranes with the help of a conserved protein located in novel sites (colored by depth) throughout the roundworm's ...

The roots of cancer run deep. Indeed, they’re usually assumed to run all the way to the blighted bits of DNA we call oncogenic mutations. But what if they don’t have to run quite that deep? What if ...

Hemophilia is a bleeding disorder that can affect the blood’s ability to clot properly. In most cases, people inherit the gene variations for hemophilia in an X-linked recessive inheritance pattern.

A startling discovery of enormous implications has just been reported in the premier research journal, Science. Despite the accepted dogma that all of a person's cells have the same genetic coding, it ...