The function of the WRI1-TCP4 regulatory module in lipid biosynthesis
The plant-specific TCP transcription factors play pivotal roles in various processes of plant growth and development. However, little is known regarding the functions of TCPs in plant oil biosynthesis. Our recent work showed that TCP4 mediates oil production via interaction with WRINKLED1 (WRI1), an...
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sg-ntu-dr.10356-1449322023-02-28T17:07:09Z The function of the WRI1-TCP4 regulatory module in lipid biosynthesis Kong, Que Yang, Yuzhou Low, Pui Man Guo, Liang Yuan, Ling Ma, Wei School of Biological Sciences Science::Biological sciences Arabidopsis WRI1 The plant-specific TCP transcription factors play pivotal roles in various processes of plant growth and development. However, little is known regarding the functions of TCPs in plant oil biosynthesis. Our recent work showed that TCP4 mediates oil production via interaction with WRINKLED1 (WRI1), an essential transcription factor governing plant fatty acid biosynthesis. Arabidopsis WRI1 (AtWRI1) physically interacts with multiple TCPs, including TCP4, TCP10, and TCP24. Transient co-expression of AtWRI1 with TCP4, but not TCP10 or TCP24, represses oil accumulation in Nicotiana benthamiana leaves. Increased TCP4 in transgenic plants overexpressing a miR319-resistant TCP4 (rTCP4) decreased the expression of AtWRI1 target genes. The tcp4 knockout mutant, the jaw-D mutant with significant reduction of TCP4 expression, and a tcp2 tcp4 tcp10 triple mutant, display increased seed oil contents compared to the wild-type Arabidopsis. The APETALA2 (AP2) transcription factor WRI1 is characterized by regulating fatty acid biosynthesis through cross-family interactions with multiple transcriptional, post-transcriptional, and post-translational regulators. The interacting regulator modules control the range of AtWRI1 transcriptional activity, allowing spatiotemporal modulation of lipid production. Interaction of TCP4 with AtWRI1, which results in a reduction of AtWRI1 activity, represents a newly discovered mechanism that enables the fine-tuning of plant oil biosynthesis. Ministry of Education (MOE) Accepted version The WRI1 work in the Ma Lab was supported by a Nanyang Technological University Startup grant and a Ministry of Education (MOE) of Singapore Tier 1 to W.M. (2018-T1-002-019). 2020-12-03T07:10:38Z 2020-12-03T07:10:38Z 2020 Journal Article Kong, Q., Yang, Y., Low, P. M., Guo, L., Yuan, L., & Ma, W. (2020). The function of the WRI1-TCP4 regulatory module in lipid biosynthesis. Plant Signaling & Behavior, 15(11). doi:10.1080/15592324.2020.1812878 1559-2324 https://hdl.handle.net/10356/144932 10.1080/15592324.2020.1812878 32880205 11 15 en Plant Signaling & Behavior © 2020 Landes Bioscience. All rights reserved. This paper was published in Plant Signaling & Behavior and is made available with permission of Landes Bioscience. application/pdf |
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Science::Biological sciences Arabidopsis WRI1 Kong, Que Yang, Yuzhou Low, Pui Man Guo, Liang Yuan, Ling Ma, Wei The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| description |
The plant-specific TCP transcription factors play pivotal roles in various processes of plant growth and development. However, little is known regarding the functions of TCPs in plant oil biosynthesis. Our recent work showed that TCP4 mediates oil production via interaction with WRINKLED1 (WRI1), an essential transcription factor governing plant fatty acid biosynthesis. Arabidopsis WRI1 (AtWRI1) physically interacts with multiple TCPs, including TCP4, TCP10, and TCP24. Transient co-expression of AtWRI1 with TCP4, but not TCP10 or TCP24, represses oil accumulation in Nicotiana benthamiana leaves. Increased TCP4 in transgenic plants overexpressing a miR319-resistant TCP4 (rTCP4) decreased the expression of AtWRI1 target genes. The tcp4 knockout mutant, the jaw-D mutant with significant reduction of TCP4 expression, and a tcp2 tcp4 tcp10 triple mutant, display increased seed oil contents compared to the wild-type Arabidopsis. The APETALA2 (AP2) transcription factor WRI1 is characterized by regulating fatty acid biosynthesis through cross-family interactions with multiple transcriptional, post-transcriptional, and post-translational regulators. The interacting regulator modules control the range of AtWRI1 transcriptional activity, allowing spatiotemporal modulation of lipid production. Interaction of TCP4 with AtWRI1, which results in a reduction of AtWRI1 activity, represents a newly discovered mechanism that enables the fine-tuning of plant oil biosynthesis. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Kong, Que Yang, Yuzhou Low, Pui Man Guo, Liang Yuan, Ling Ma, Wei |
| format |
Article |
| author |
Kong, Que Yang, Yuzhou Low, Pui Man Guo, Liang Yuan, Ling Ma, Wei |
| author_sort |
Kong, Que |
| title |
The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| title_short |
The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| title_full |
The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| title_fullStr |
The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| title_full_unstemmed |
The function of the WRI1-TCP4 regulatory module in lipid biosynthesis |
| title_sort |
function of the wri1-tcp4 regulatory module in lipid biosynthesis |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144932 |
| _version_ |
1759858350147764224 |