In 1961, Mary Lyon, a researcher who studied genetics, published “Gene Action in the X-chromosome of the Mouse (Mus Musculus L.),” hereafter “Gene Action in the X-chromosome,” in the journal Nature. Lyon’s paper focuses on the workings of female sex chromosomes, or X-chromosomes, and their implications for gene expression. A chromosome is a structure in a cell’s nucleus that contains the DNA, or genetic information, for each individual. In her paper, Lyon proposes her X-inactivation hypothesis, which states that one of the two X-chromosomes in mammalian female cells becomes inactive during early development, silencing its genetic activity. By describing X-chromosome inactivation, Lyon provided an explanation for the mosaic patterns observed in some female mammals, where different regions of their bodies exhibit distinct traits based on the genes carried by the particular X-chromosome that is active in that region. “Gene Action in the X-chromosome” provided evidence that X-chromosome inactivation occurs, laying the basis for understanding sex-linked traits, gene expression, and X-linked genetic diseases that impact thousands of people.