Tissue-specific Expression and Dynamic Organization of SR Splicing Factors in Arabidopsis

Yuda Fang, Stephen Hearn, and David L. Spector^*

Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724

Submitted February 4, 2004; Revised March 4, 2004; Accepted March 8, 2004
Monitoring Editor: Joseph Gall

The organization of the pre-mRNA splicing machinery has beenextensively studied in mammalian and yeast cells and far lessis known in living plant cells and different cell types of anintact organism. Here, we report on the expression, organization,and dynamics of pre-mRNA splicing factors (SR33, SR1/atSRp34,and atSRp30) under control of their endogenous promoters inArabidopsis. Distinct tissue-specific expression patterns wereobserved, and differences in the distribution of these proteinswithin nuclei of different cell types were identified. Thesefactors localized in a cell type-dependent speckled patternas well as being diffusely distributed throughout the nucleoplasm.Electron microscopic analysis has revealed that these specklescorrespond to interchromatin granule clusters. Time-lapse microscopyrevealed that speckles move within a constrained nuclear space,and their organization is altered during the cell cycle. Fluorescencerecovery after photobleaching analysis revealed a rapid exchangerate of splicing factors in nuclear speckles. The dynamic organizationof plant speckles is closely related to the transcriptionalactivity of the cells. The organization and dynamic behaviorof speckles in Arabidopsis cell nuclei provides significantinsight into understanding the functional compartmentalizationof the nucleus and its relationship to chromatin organizationwithin various cell types of a single organism.

Article published online ahead of print. Mol. Biol. Cell 10.1091/mbc.E04-02-0100.Article and publication date are available at www.molbiolcell.org/cgi/doi/10.1091/mbc.E04-02-0100.

Online version of this article contains supporting material.Online version is available at www.molbiolcell.org.

^* Corresponding author. E-mail address: spector{at}cshl.edu.

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