Characterization and quantitation of differential Tsix transcripts: implications for Tsix function

doi:10.1093/hmg/ddg010

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Human Molecular Genetics, 2003, Vol. 12, No. 2 125-136
© 2003 Oxford University Press

Characterization and quantitation of differential Tsix transcripts: implications for Tsix function

Shinwa Shibata and Jeannie T. Lee^*

Howard Hughes Medical Institute, Department of Molecular Biology, Massachusetts General Hospital, Department of Genetics, Harvard Medical School, Boston, MA 02114, USA

Received September 7, 2002; Accepted November 2, 2002

In dosage compensation of female mammals, the accumulation ofXist RNA initiates silencing of one X-chromosome. Xist actionis repressed by the antisense gene, Tsix, whose full-lengthRNA product is complementary to Xist RNA in mice. While previouswork showed that Tsix transcription blocks the accumulationof Xist RNA, it is still unclear whether this repression requiresthe antisense RNA product or whether the antisense transcriptionalmovement is sufficient. A better understanding of potentialmechanisms requires elucidation of Tsix RNA structure and determinationof Tsix RNA copy number relative to that of Xist RNA. Previouswork indicated that at least some of murine Tsix is splicedand that human TSIX truncates within the 3' end of XIST. Here,further characterization and quantitation of murine Tsix RNAreveal three new findings: first, in undifferentiated embryonicstem cells, Tsix RNA is present at 10–100-fold molar excessover Xist RNA. Second, only 30–60% of Tsix RNA is splicedat known exon–intron junctions. The nearly equal abundanceof spliced and unspliced species leaves open possible rolesfor both isoforms. Finally, Tsix is spliced heterogeneouslyat the 5' end and most detectable splice variants exhibit onlya 1.9 kb region of complementarity between sense and antisenseRNAs. Implications for Tsix's possible mechanisms of actionare discussed.

^* To whom correspondence should be addressed. Email: lee{at}frodo.mgh.harvard.edu

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