Research on selfish genes provides new insight into meiotic drive systems and how they use the poison-antidote technique to function. The selfish gene in yeast uses the ‘poison-antidote’ technique to ...

Scientists have a tendency to anthropomorphize their work, and not just the animals they study. Even molecules or scientific principles may be ascribed human attributes or logic. Case in point: a ...

A new study reveals how a selfish gene in yeast uses a poison-antidote strategy that enables its function and likely has facilitated its long-term evolutionary success. This strategy is an important ...

New findings from the Stowers Institute for Medical Research uncover critical insights about how a dangerous selfish gene, considered to be a parasitic portion of DNA, functions and survives.

KANSAS CITY, MO - Researchers from the Stowers Institute for Medical Research in collaboration with Fred Hutchinson Cancer Research Center researchers have identified an unprecedented genetic survival ...

TORONTO (CTV Network) — Research published by the Stowers Institute for Medical Research includes important insights on how a dangerous selfish gene functions and survives. According to those behind ...

KANSAS CITY, MO—Dec. 7, 2022—New findings from the Stowers Institute for Medical Research uncover critical insights about how a dangerous selfish gene—considered to be a parasitic portion of ...