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Analysis of Arabidopsis transcription factor families revealed extensive capacity for cell-to-cell movement as well as discrete trafficking patterns

Authors
Rim, YeonggilHuang, LijunChu, HyosubHan, XiaoCho, Won KyongJeon, Che OkKim, Hye JinHong, Jong-ChanLucas, William J.Kim, Jae-Yean
Issue Date
Dec-2011
Publisher
KOREAN SOC MOLECULAR & CELLULAR BIOLOGY, 635-4, YUCKSAM-DONG, GANGNAM-GU, SEOUL 135-703, SOUTH KOREA
Keywords
Cell-to-cell communication; Intercellular protein trafficking; Non-cell-autonomous transcription factor (NCATF); Plasmodesmata (PD)
Citation
Molecules and Cells, v.32, no.6, pp 519 - 526
Pages
8
Journal Title
Molecules and Cells
Volume
32
Number
6
Start Page
519
End Page
526
URI
https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/21928
DOI
10.1007/s10059-011-0135-2
ISSN
1016-8478
0219-1032
Abstract
In plants, cell-to-cell communication is pivotal for the orchestration of cell fate determination, organ development, and the integration of whole plant physiology. One of the strategies for intercellular communication uses symplasmic communication channels, called plasmodesmata (PD). These PD establish unique cytoplasmic channels for the intercellular exchange not only of metabolites and small signaling molecules, but also of regulatory proteins and RNAs to allow for local orchestration of development and physiology. A number of non-cell-autonomous transcription factors (NCATFs) have been shown to function in the coordination of specific regulatory networks. To further explore the potential of such NCATFs, a genome-wide screen was performed on the transcription factor (TF) families in Arabidopsis. We here report that, among the 76 TFs examined, 22 were shown to move beyond their sites of transcription in the root apex; these NCATFs belonged to 17 TF families, including homeobox, GRAS, and MYB. Expression studies performed on variously-sized mCherry constructs identified a range of PD size exclusion limits within tissues of the root. In addition, our studies showed that actual protein level was an important factor controlling the range of TF intercellular movement. Interestingly, our studies on CAPRICE movement revealed tissue-specificity with respect to the mode of intercellular trafficking. These findings are discussed with respect to the regulation between cell-autonomous or non-cell-autonomous action. © 2011 KSMCB.
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