AI Article Synopsis
- - The SCI1 gene in Nicotiana tabacum plays a crucial role in plant reproductive organ size by regulating cell proliferation and interacting with proteins involved in the cell cycle.
- - Researchers identified the interaction between SCI1, a cyclin-dependent kinase (NtCDKG;2), and a newly discovered RNA helicase (NtRH35) through various experimental methods, revealing their association in subcellular structures like splicing speckles.
- - This study highlights SCI1 and its interactors as novel components of the spliceosome, suggesting that SCI1 may influence cell proliferation via splicing processes, which enhances our understanding of plant developmental pathways.
Article Abstract
Successful plant reproduction depends on the adequate development of floral organs controlled by cell proliferation and other processes. The Stigma/style cell-cycle inhibitor 1 (SCI1) gene regulates cell proliferation and affects the final size of the female reproductive organ. To unravel the molecular mechanism exerted by Nicotiana tabacum SCI1 in cell proliferation control, we searched for its interaction partners through semi-in vivo pull-down experiments, uncovering a cyclin-dependent kinase, NtCDKG;2. Bimolecular fluorescence complementation and co-localization experiments showed that SCI1 interacts with NtCDKG;2 and its cognate NtCyclin L in nucleoli and splicing speckles. The screening of a yeast two-hybrid cDNA library using SCI1 as bait revealed a novel DEAD-box RNA helicase (NtRH35). Interaction between the NtCDKG;2-NtCyclin L complex and NtRH35 is also shown. Subcellular localization experiments showed that SCI1, NtRH35, and the NtCDKG;2-NtCyclin L complex associate with each other within splicing speckles. The yeast two-hybrid screening of NtCDKG;2 and NtRH35 identified the conserved spliceosome components U2a', NF-κB activating protein (NKAP), and CACTIN. This work presents SCI1 and its interactors, the NtCDKG;2-NtCyclin L complex and NtRH35, as new spliceosome-associated proteins. Our findings reveal a network of interactions and indicate that SCI1 may regulate cell proliferation through the splicing process, providing new insights into the intricate molecular pathways governing plant development.
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| http://dx.doi.org/10.1093/jxb/erae337 | DOI Listing |
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