Silencing XIST on the future active X: Searching human and bovine preimplantation embryos for the repressor.

X inactivation is the means of equalizing the dosage of X chromosomal genes in male and female eutherian mammals, so that only one X is active in each cell. The XIST locus (in cis) on each additional X chromosome initiates the transcriptional silence of that chromosome, making it an inactive X. How the active X in both males and females is protected from inactivation by its own XIST locus is not well understood in any mammal.

Reflections on the history of genetic medicine at Johns Hopkins University.

Two members of the faculty-who witnessed the birth of Genetic Medicine and remained to see it evolve-present their reflections about the history of genetic medicine at the Johns Hopkins Medical Institutions. They tell how the genetic units in Pediatrics and Medicine that were initiated by Barton Childs and Victor McKusick, respectively, became the McKusick Nathans Department of Genetic Medicine in 2020.

Stochastic gene expression and chromosome interactions in protecting the human active X from silencing by .

Mammals use X chromosome inactivation to compensate for the sex difference in numbers of X chromosomes. A relatively unexplored question is how the active X is protected from inactivation by its own XIST gene, the long non-coding RNA, which initiates silence of the inactive X.  Previous studies of autosomal duplications show that human chromosome 19 plays a critical role in protecting the active X.

X-linked diseases: susceptible females.

The role of X-inactivation is often ignored as a prime cause of sex differences in disease. Yet, the way males and females express their X-linked genes has a major role in the dissimilar phenotypes that underlie many rare and common disorders, such as intellectual deficiency, epilepsy, congenital abnormalities, and diseases of the heart, blood, skin, muscle, and bones. Summarized here are many examples of the different presentations in males and females.

The Non-random Location of Autosomal Genes That Participate in X Inactivation.

Mammals compensate for sex differences in the number of X chromosomes by inactivating all but one X chromosome. Although they differ in the details of X inactivation, all mammals use long non-coding RNAs in the silencing process. By transcribing XIST RNA, the human inactive X chromosome has a prime role in X-dosage compensation.