Control of stem cell homeostasis via interlocking microRNA and microProtein feedback loops. Brandt, R., Xie, Y., Musielak, T., Graeff, M., Stierhof, Y., Huang, H., Liu, C., & Wenkel, S. Mechanisms of Development, 130(1):25–33, January, 2013.
Control of stem cell homeostasis via interlocking microRNA and microProtein feedback loops [link]Paper  doi  abstract   bibtex   
Stem cells in the shoot apex of plants produce cells required for the formation of new leaves. Adult leaves are composed of multiple tissue layers arranged along the dorso-ventral (adaxial/abaxial) axis. Class III homeodomain leucine zipper (HD-ZIPIII) transcription factors play an important role in the set-up of leaf polarity in plants. Loss of HD-ZIPIII function results in strongly misshapen leaves and in severe cases fosters the consumption of the apical stem cells, thus causing a growth arrest in mutant plants. HD-ZIPIII mRNA is under tight control by microRNAs 165/166. In addition to the microRNA-action a second layer of regulation is established by LITTLE ZIPPER (ZPR)-type microProteins, which can interact with HD-ZIPIII proteins, forming attenuated protein complexes. Here we show that REVOLUTA (REV, a member of the HD-ZIPIII family) directly regulates the expression of ARGONAUTE10 (AGO10), ZPR1 and ZPR3. Because AGO10 was shown to dampen microRNA165/6 function, REV establishes a positive feedback loop on its own activity. Since ZPR-type microProteins are known to reduce HD-ZIPIII protein activity, REV concomitantly establishes a negative feedback loop. We propose that the interconnection of these microRNA/microProtein feedback loops regulates polarity set-up and stem cell activity in plants.
@article{brandt_control_2013,
	series = {Developmental plasticity and adaptation in plants},
	title = {Control of stem cell homeostasis via interlocking {microRNA} and {microProtein} feedback loops},
	volume = {130},
	issn = {0925-4773},
	url = {https://www.sciencedirect.com/science/article/pii/S0925477312000603},
	doi = {10.1016/j.mod.2012.06.007},
	abstract = {Stem cells in the shoot apex of plants produce cells required for the formation of new leaves. Adult leaves are composed of multiple tissue layers arranged along the dorso-ventral (adaxial/abaxial) axis. Class III homeodomain leucine zipper (HD-ZIPIII) transcription factors play an important role in the set-up of leaf polarity in plants. Loss of HD-ZIPIII function results in strongly misshapen leaves and in severe cases fosters the consumption of the apical stem cells, thus causing a growth arrest in mutant plants. HD-ZIPIII mRNA is under tight control by microRNAs 165/166. In addition to the microRNA-action a second layer of regulation is established by LITTLE ZIPPER (ZPR)-type microProteins, which can interact with HD-ZIPIII proteins, forming attenuated protein complexes. Here we show that REVOLUTA (REV, a member of the HD-ZIPIII family) directly regulates the expression of ARGONAUTE10 (AGO10), ZPR1 and ZPR3. Because AGO10 was shown to dampen microRNA165/6 function, REV establishes a positive feedback loop on its own activity. Since ZPR-type microProteins are known to reduce HD-ZIPIII protein activity, REV concomitantly establishes a negative feedback loop. We propose that the interconnection of these microRNA/microProtein feedback loops regulates polarity set-up and stem cell activity in plants.},
	language = {en},
	number = {1},
	urldate = {2022-11-30},
	journal = {Mechanisms of Development},
	author = {Brandt, Ronny and Xie, Yakun and Musielak, Thomas and Graeff, Moritz and Stierhof, York-Dieter and Huang, Hai and Liu, Chun-Ming and Wenkel, Stephan},
	month = jan,
	year = {2013},
	keywords = {AGO10, HD-ZIPIII transcription factors, LITTLE ZIPPER, Shoot apical meristem, microProteins, microRNAs},
	pages = {25--33},
}
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