Vit Na Choi scite author profile

Vit Na Choi

3Publications

5Citation Statements Received

73Citation Statements Given

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Kangwon National University

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Clustered LAG-1 binding sites in lag-1/CSL are involved in regulating lag-1 expression during lin-12/Notch-dependent cell-fate specification

Choi

Park²,

Hwang

2013

BMB Reports

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The cell-fate specification of the anchor cell (AC) and a ventral uterine precursor cell (VU) in Caenorhabditis elegans is initiated by a stochastic interaction between LIN-12/Notch receptor and LAG-2/Delta ligand in two neighboring Z1.ppp and Z4.aaa cells. Both cells express lin-12 and lag-2 before specification, and a small difference in LIN-12 activity leads to the exclusive expressions of lin-12 in VU and lag-2 in the AC, through a feedback mechanism of unknown nature. Here we show that the expression pattern of lag-1/CSL, a transcriptional repressor itself that turns into an activator upon binding of the intracellular domain of Notch, overlaps with that of lin-12. Site-directed mutagenesis of LAG-1 binding sites in lag-1 maintains its expression in the AC, and eliminates it in the VU. Thus, AC/VU cell-fate specification appears to involve direct regulation of lag-1 expression by the LAG-1 protein, activating its transcription in VU cells, but repressing it in the AC. [BMB Reports 2013; 46(4): 219-224]

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Enzymatic production and expression of shRNAmir30 from cDNAs

et al. 2013

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LIN-12/Notch Regulates lag-1 and lin-12 Expression during Anchor Cell/Ventral Uterine Precursor Cell Fate Specification

Park

Choi

Hwang

2013

Molecules and Cells

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During Caenorhabditis elegans gonadal development, a stochastic interaction between the LIN-12/Notch receptor and the LAG-2/Delta ligand initiates cell fate specification of two equivalent pre-anchor cell (AC)/pre-ventral uterine (VU) precursor cells. Both cells express lin-12 and lag-2 before specification, and a small difference in LIN-12 activity leads to the exclusive expression of lin-12 in VUs and lag-2 in the AC through an unknown feedback mechanism. In this Notch signaling process, the cleaved LIN-12/Notch intracellular domain (NICD) binds to the LAG-1/CSL transcriptional repressor, forming a transcriptional activator complex containing LAG-1 and NICD. Here we show that clustered LAG-1 binding sites in lin-12 and lag-1 are involved in regulating lin-12 and lag-1 expression during AC/VU cell fate specification. Both genes are expressed in VU cells, but not the AC, after specification. We also show that lin-12 is necessary for lag-1 expression in VU cells. Interestingly, lin-12 (null) animals express lag-1 in the AC, suggesting that LIN-12 signaling is necessary for the suppression of lag-1 expression in the AC. Ectopic expression of lag-1 cDNA in the AC causes a defect in the vulvaluterine (V-U) connection; therefore, LAG-1 should be eliminated in the AC to form a normal V-U connection at a later developmental stage in wild-type animals.

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Vit Na Choi

Clustered LAG-1 binding sites in lag-1/CSL are involved in regulating lag-1 expression during lin-12/Notch-dependent cell-fate specification

Enzymatic production and expression of shRNAmir30 from cDNAs

LIN-12/Notch Regulates lag-1 and lin-12 Expression during Anchor Cell/Ventral Uterine Precursor Cell Fate Specification

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