Chia‐Lun Tsai scite author profile

Mammalian X inactivation turns off one female X chromosome to enact dosage compensation between XX and XY individuals. X inactivation is known to be regulated in cis by Xite, Tsix, and Xist, but in principle the two Xs must also be regulated in trans to ensure mutually exclusive silencing. Here, we demonstrate that interchromosomal pairing mediates this communication. Pairing occurs transiently at the onset of X inactivation and is specific to the X-inactivation center. Deleting Xite and Tsix perturbs pairing and counting/choice, whereas their autosomal insertion induces de novo X-autosome pairing. Ectopic X-autosome interactions inhibit endogenous X-X pairing and block the initiation of X-chromosome inactivation. Thus, Tsix and Xite function both in cis and in trans. We propose that Tsix and Xite regulate counting and mutually exclusive choice through X-X pairing.

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Evidence of a critical architectural function for the RAG proteins in end processing, protection, and joining in V(D)J recombination

Tsai

Drejer²,

Schatz³

2002

Genes Dev.

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In addition to creating the DNA double strand breaks that initiate V(D)J recombination, the RAG proteins are thought to play a critical role in the joining phase of the reaction. One such role, suggested by in vitro studies, might be to ensure the structural integrity of postcleavage complexes, but the significance of such a function in vivo is unknown. We have identified RAG1 mutants that are proficient in DNA cleavage but defective in their ability to interact with coding ends after cleavage and in the capture of target DNA for transposition. As a result, these mutants exhibit severe defects in hybrid joint formation, hairpin coding end opening, and transposition in vitro The variable portion of the genes encoding immunoglobulins and T cell receptors are assembled from component V, D, and J DNA segments by a site-specific recombination reaction termed V(D)J recombination (Tonegawa 1983). V(D)J recombination is targeted to specific sites on the chromosome by recombination signal sequences (RSSs) that flank antigen receptor gene segments. The RSS consists of a conserved heptamer (consensus, 5Ј-CACAGTG-3Ј) and nonamer (consensus, 5Ј-ACAAAAACC-

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Higher order chromatin structure at the X-inactivation center via looping DNA

Tsai

Rowntree

Cohen

et al. 2008

Developmental Biology

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In mammals, the silencing step of the X-chromosome inactivation (XCI) process is initiated by the non-coding Xist RNA. Xist is known to be controlled by the non-coding Xite and Tsix loci, but the mechanisms by which Tsix and Xite regulate Xist are yet to be fully elucidated. Here, we examine the role of higher order chromatin structure across the 100-kb region of the mouse X-inactivation center (Xic) and map domains of specialized chromatin in vivo. By hypersensitive site mapping and chromosome conformation capture (3C), we identify two domains of higher order chromatin structure. Xite makes looping interactions with Tsix, while Xist makes contacts with Jpx/Enox, another non-coding gene not previously implicated in XCI. These regions interact in a developmentally-specific and sex-specific manner that is consistent with a regulatory role in XCI. We propose that dynamic changes in three-dimensional architecture leads to formation of separate chromatin hubs in Tsix and Xist that together regulate the initiation of X-chromosome inactivation.

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Chia‐Lun Tsai

Transient Homologous Chromosome Pairing Marks the Onset of X Inactivation

Evidence of a critical architectural function for the RAG proteins in end processing, protection, and joining in V(D)J recombination

Higher order chromatin structure at the X-inactivation center via looping DNA

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