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Literature DB >> 31570508

SnRK2 Protein Kinases and mRNA Decapping Machinery Control Root Development and Response to Salt.

Dorota Kawa¹, A Jessica Meyer^1,2, Henk L Dekker³, Ahmed M Abd-El-Haliem⁴, Kris Gevaert^5,6, Eveline Van De Slijke^7,8, Justyna Maszkowska⁹, Maria Bucholc⁹, Grażyna Dobrowolska⁹, Geert De Jaeger^7,8, Robert C Schuurink⁴, Michel A Haring⁴, Christa Testerink^10,2.

Abstract

SNF1-RELATED PROTEIN KINASES 2 (SnRK2) are important components of early osmotic and salt stress signaling pathways in plants. The Arabidopsis (Arabidopsis thaliana) SnRK2 family comprises the abscisic acid (ABA)-activated protein kinases SnRK2.2, SnRK2.3, SnRK2.6, SnRK2.7, and SnRK2.8, and the ABA-independent subclass 1 protein kinases SnRK2.1, SnRK2.4, SnRK2.5, SnRK2.9, and SnRK2.10. ABA-independent SnRK2s act at the posttranscriptional level via phosphorylation of VARICOSE (VCS), a member of the mRNA decapping complex, that catalyzes the first step of 5'mRNA decay. Here, we identified VCS and VARICOSE RELATED (VCR) as interactors and phosphorylation targets of SnRK2.5, SnRK2.6, and SnRK2.10. All three protein kinases phosphorylated Ser-645 and Ser-1156 of VCS, whereas SnRK2.6 and SnRK2.10 also phosphorylated VCS Ser-692 and Ser-680 of VCR. We showed that subclass 1 SnRK2s, VCS, and 5' EXORIBONUCLEASE 4 (XRN4) are involved in regulating root growth under control conditions as well as modulating root system architecture in response to salt stress. Our results suggest interesting patterns of redundancy within subclass 1 SnRK2 protein kinases, with SnRK2.1, SnRK2.5, and SnRK2.9 controlling root growth under nonstress conditions and SnRK2.4 and SnRK2.10 acting mostly in response to salinity. We propose that subclass 1 SnRK2s function in root development under salt stress by affecting the transcript levels of aquaporins, as well as CYP79B2, an enzyme involved in auxin biosynthesis.

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Year: 2019 PMID： 31570508 PMCID： PMC6945840 DOI： 10.1104/pp.19.00818

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

73 in total

1. SNF1-related protein kinases 2 are negatively regulated by a plant-specific calcium sensor.

Authors: Maria Bucholc; Arkadiusz Ciesielski; Grażyna Goch; Anna Anielska-Mazur; Anna Kulik; Ewa Krzywińska; Grażyna Dobrowolska
Journal: J Biol Chem Date: 2010-11-22 Impact factor: 5.157

2. Three SnRK2 protein kinases are the main positive regulators of abscisic acid signaling in response to water stress in Arabidopsis.

Authors: Yasunari Fujita; Kazuo Nakashima; Takuya Yoshida; Takeshi Katagiri; Satoshi Kidokoro; Norihito Kanamori; Taishi Umezawa; Miki Fujita; Kyonoshin Maruyama; Kanako Ishiyama; Masatomo Kobayashi; Shoko Nakasone; Kohji Yamada; Takuya Ito; Kazuo Shinozaki; Kazuko Yamaguchi-Shinozaki
Journal: Plant Cell Physiol Date: 2009-12 Impact factor: 4.927

3. Auxin regulates aquaporin function to facilitate lateral root emergence.

Authors: Benjamin Péret; Guowei Li; Jin Zhao; Leah R Band; Ute Voß; Olivier Postaire; Doan-Trung Luu; Olivier Da Ines; Ilda Casimiro; Mikaël Lucas; Darren M Wells; Laure Lazzerini; Philippe Nacry; John R King; Oliver E Jensen; Anton R Schäffner; Christophe Maurel; Malcolm J Bennett
Journal: Nat Cell Biol Date: 2012-09-16 Impact factor: 28.824

4. The ABI1 and ABI2 protein phosphatases 2C act in a negative feedback regulatory loop of the abscisic acid signalling pathway.

Authors: S Merlot; F Gosti; D Guerrier; A Vavasseur; J Giraudat
Journal: Plant J Date: 2001-02 Impact factor: 6.417

5. Activity of guard cell anion channel SLAC1 is controlled by drought-stress signaling kinase-phosphatase pair.

Authors: Dietmar Geiger; Sönke Scherzer; Patrick Mumm; Annette Stange; Irene Marten; Hubert Bauer; Peter Ache; Susanne Matschi; Anja Liese; Khaled A S Al-Rasheid; Tina Romeis; Rainer Hedrich
Journal: Proc Natl Acad Sci U S A Date: 2009-12-02 Impact factor: 11.205

6. TaSnRK2.4, an SNF1-type serine/threonine protein kinase of wheat (Triticum aestivum L.), confers enhanced multistress tolerance in Arabidopsis.

Authors: Xinguo Mao; Hongying Zhang; Shanjun Tian; Xiaoping Chang; Ruilian Jing
Journal: J Exp Bot Date: 2009-12-18 Impact factor: 6.992

7. Arabidopsis mRNA decay landscape arises from specialized RNA decay substrates, decapping-mediated feedback, and redundancy.

Authors: Reed S Sorenson; Malia J Deshotel; Katrina Johnson; Frederick R Adler; Leslie E Sieburth
Journal: Proc Natl Acad Sci U S A Date: 2018-01-31 Impact factor: 11.205

8. Components of the Arabidopsis mRNA decapping complex are required for early seedling development.

Authors: David C Goeres; Jaimie M Van Norman; Weiping Zhang; Nellie A Fauver; Mary Lou Spencer; Leslie E Sieburth
Journal: Plant Cell Date: 2007-05-18 Impact factor: 11.277

9. The Snf1-related protein kinases SnRK2.4 and SnRK2.10 are involved in maintenance of root system architecture during salt stress.

Authors: Fionn McLoughlin; Carlos S Galvan-Ampudia; Magdalena M Julkowska; Lotte Caarls; Dieuwertje van der Does; Christiane Laurière; Teun Munnik; Michel A Haring; Christa Testerink
Journal: Plant J Date: 2012-08-20 Impact factor: 6.417

10. In vitro reconstitution of an abscisic acid signalling pathway.

Authors: Hiroaki Fujii; Viswanathan Chinnusamy; Americo Rodrigues; Silvia Rubio; Regina Antoni; Sang-Youl Park; Sean R Cutler; Jen Sheen; Pedro L Rodriguez; Jian-Kang Zhu
Journal: Nature Date: 2009-11-18 Impact factor: 49.962

19 in total

1. Rapid Changes: Abscisic Acid-Independent SnRK2s Target mRNA Decay.

Authors: Magda Julkowska
Journal: Plant Physiol Date: 2020-01 Impact factor: 8.340

2. The Dynamic Kaleidoscope of RNA Biology in Plants.

Authors: Julia Bailey-Serres; Jixian Zhai; Motoaki Seki
Journal: Plant Physiol Date: 2020-01 Impact factor: 8.340

3. A NYN domain protein directly interacts with DECAPPING1 and is required for phyllotactic pattern.

Authors: Marlene Schiaffini; Clara Chicois; Aude Pouclet; Tiphaine Chartier; Elodie Ubrig; Anthony Gobert; Hélène Zuber; Jérôme Mutterer; Johana Chicher; Lauriane Kuhn; Philippe Hammann; Dominique Gagliardi; Damien Garcia
Journal: Plant Physiol Date: 2022-02-04 Impact factor: 8.340

4. Heterologous expression of a Fraxinus velutina SnRK2 gene in Arabidopsis increases salt tolerance by modifying root development and ion homeostasis.

Authors: Mingjing Zhang; Li Liu; Chunxiao Chen; Yang Zhao; Caihong Pang; Min Chen
Journal: Plant Cell Rep Date: 2022-07-07 Impact factor: 4.964