SUMMARY
Alternative splicing (AS) of pre-mRNA is utilized by higher eukaryotes to achieve increased transcriptome and proteomic complexity. The serine/arginine (SR) splicing factors regulate tissue- or cell-type-specific AS in a concentration- and phosphorylation-dependent manner. However, the mechanisms that modulate the cellular levels of active SR proteins remain to be elucidated. In the present study, we provide evidence for a role for the long nuclear-retained regulatory RNA (nrRNA), MALAT1 in AS regulation. MALAT1 interacts with SR proteins and influences the distribution of these and other splicing factors in nuclear speckle domains. Depletion of MALAT1 or overexpression of an SR protein changes the AS of a similar set of endogenous pre-mRNAs. Furthermore, MALAT1 regulates cellular levels of phosphorylated forms of SR proteins. Taken together, our results suggest that MALAT1 regulates AS by modulating the levels of active SR proteins. Our results further highlight the role for an nrRNA in the regulation of gene expression.
The hydrophobic transmembrane domain of glycophorin A contains a sequence motif that mediates dimerization in membrane environments. Long-range interhelical distance measurements using magic angle spinning NMR spectroscopy provide high-resolution structural constraints on the packing of the dimer interface in membrane bilayers. We show that direct packing contacts occur between glycine residues at positions 79 and 83 in the transmembrane sequence. Additional interhelical constraints between Ile76 and Gly79 and between Val80 and Gly83 restrict the rotational orientation and crossing angle of the interacting helices. These results refine our previously proposed structure of the glycophorin A dimer [Smith, S. O., and Bormann, B. J. (1995) Proc. Natl. Acad. Sci. U.S.A. 92, 488-491] which revealed that the methyl groups of Val80 and Val84 are packed against Gly79 and Gly83, respectively.
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