| Molecular mechanism of trehalose 6-phosphate inhibition of the plant metabolic sensor kinase SnRK1. | Molecular mechanism of trehalose 6-phosphate inhibition of the plant metabolic sensor kinase SnRK1.
Blanford J, Zhai Z, Baer MD, Guo G, Liu H, Liu Q, Raugei S, Shanklin J., Free PMC Article | 08/15/2024 |
| The evolutionarily conserved kinase SnRK1 orchestrates resource mobilization during Arabidopsis seedling establishment. | The evolutionarily conserved kinase SnRK1 orchestrates resource mobilization during Arabidopsis seedling establishment.
Henninger M, Pedrotti L, Krischke M, Draken J, Wildenhain T, Fekete A, Rolland F, Müller MJ, Fröschel C, Weiste C, Dröge-Laser W., Free PMC Article | 02/26/2022 |
| Kinase SnRK1.1 regulates nitrate channel SLAH3 engaged in nitrate-dependent alleviation of ammonium toxicity. | Kinase SnRK1.1 regulates nitrate channel SLAH3 engaged in nitrate-dependent alleviation of ammonium toxicity.
Sun D, Fang X, Xiao C, Ma Z, Huang X, Su J, Li J, Wang J, Wang S, Luan S, He K., Free PMC Article | 02/19/2022 |
| KIN10 promotes stomatal development through stabilization of the SPEECHLESS transcription factor. | KIN10 promotes stomatal development through stabilization of the SPEECHLESS transcription factor.
Han C, Liu Y, Shi W, Qiao Y, Wang L, Tian Y, Fan M, Deng Z, Lau OS, De Jaeger G, Bai MY., Free PMC Article | 09/19/2020 |
| SnRK1 mediates the phosphorylation and concomitant inhibition of AtCCT1.[SnRK1] | Arabidopsis CTP:phosphocholine cytidylyltransferase 1 is phosphorylated and inhibited by sucrose nonfermenting 1-related protein kinase 1 (SnRK1).
Caldo KMP, Xu Y, Falarz L, Jayawardhane K, Acedo JZ, Chen G., Free PMC Article | 07/10/2020 |
| SnRK1.1 is localized dynamically between the nucleus and endoplasmic reticulum (ER). ER-associated SnRK1.1 fraction might be sensing the cellular energy status, being a point of crosstalk with other ER stress regulatory pathways | Dual and dynamic intracellular localization of Arabidopsis thaliana SnRK1.1.
Blanco NE, Liebsch D, Guinea Díaz M, Strand Å, Whelan J. | 06/13/2020 |
| the SnRK1-eIFiso4G1 relay controls the translation of an array of genes under hypoxia. | The SnRK1-eIFiso4G1 signaling relay regulates the translation of specific mRNAs in Arabidopsis under submergence.
Cho HY, Lu MJ, Shih MC. | 02/29/2020 |
| the role of AKIN10, on clock periodicity, is reported. | AKIN10 activity as a cellular link between metabolism and circadian-clock entrainment in Arabidopsis thaliana.
Sánchez-Villarreal A, Davis AM, Davis SJ., Free PMC Article | 02/2/2019 |
| KIN10 expression modulates root phenotype of Arabidopsis thaliana root system in condition of energy stress. | The influence of protein kinase KIN10 gene expression on root phenotype of Arabidopsis thaliana root system in condition of energy stress.
Krasnoperova EE, Isayenkov SV, Yemets AI, Blume YB. | 12/22/2018 |
| KIN10 is required for sucrose-induced hypocotyl elongation in light/dark cycles. | The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation.
Simon NML, Kusakina J, Fernández-López Á, Chembath A, Belbin FE, Dodd AN., Free PMC Article | 12/22/2018 |
| AKIN10 conditionally works in a circadian clock input pathway to the circadian oscillator.AKIN10 modulates the Arabidopsis circadian clock in a light-dependent manner. | The metabolic sensor AKIN10 modulates the Arabidopsis circadian clock in a light-dependent manner.
Shin J, Sánchez-Villarreal A, Davis AM, Du SX, Berendzen KW, Koncz C, Ding Z, Li C, Davis SJ. | 12/23/2017 |
| the activity and T-loop phosphorylation of AKIN10, the kinase subunit of the SnRK1 complex, is regulated by the redox status. | Redox state-dependent modulation of plant SnRK1 kinase activity differs from AMPK regulation in animals.
Wurzinger B, Mair A, Fischer-Schrader K, Nukarinen E, Roustan V, Weckwerth W, Teige M., Free PMC Article | 11/25/2017 |
| SnRK1 acts upstream of TOR in the activation of autophagy in Arabidopsis | SnRK1 activates autophagy via the TOR signaling pathway in Arabidopsis thaliana.
Soto-Burgos J, Bassham DC., Free PMC Article | 10/7/2017 |
| Data suggest that AKIN10 phosphorylates and inactivates HMGR; AKIN10 phosphorylates not only conserved Ser577 in active site but also other site/sites in noncatalytic domain of HMGR; inactivation of HMGR by AKIN10 requires interaction of AKIN10 with GRIK1. (AKIN10 = SnRK1 protein kinase; HMGR = hydroxymethylglutaryl-CoA-reductase; GRIK1 = geminivirus Rep-interacting kinase 1) | AKIN10, a representative Arabidopsis SNF1-related protein kinase 1 (SnRK1), phosphorylates and downregulates plant HMG-CoA reductase.
Robertlee J, Kobayashi K, Suzuki M, Muranaka T. | 08/12/2017 |
| SnRK1 shares clear structural and functional similarities with its orthologs, yeast SNF1 and mammalian AMPK, but has evolved unique features that presumably provide a better adaptation to an autotrophic lifestyle. (Review) | Plant SnRK1 Kinases: Structure, Regulation, and Function.
Margalha L, Valerio C, Baena-González E. | 06/3/2017 |
| Taken together, our results disclose the central low-energy activated SnRK1-C/S1-bZIP signalling module as gateway to integrate information on the plant's energy status into root meristem control, thereby balancing plant growth and cellular energy resources. | The Arabidopsis bZIP11 transcription factor links low-energy signalling to auxin-mediated control of primary root growth.
Weiste C, Pedrotti L, Selvanayagam J, Muralidhara P, Fröschel C, Novák O, Ljung K, Hanson J, Dröge-Laser W., Free PMC Article | 05/27/2017 |
| observations indicate that AKIN10 antagonizes the IDD8 function in flowering time control, a notion that is consistent with the delayed flowering phenotypes of AKIN10-overexpressing plants and idd8-3 mutant | AKIN10 delays flowering by inactivating IDD8 transcription factor through protein phosphorylation in Arabidopsis.
Jeong EY, Seo PJ, Woo JC, Park CM., Free PMC Article | 01/16/2016 |
| AKIN10 negatively modulates AtMYC2 protein accumulation via proteasome activity upon AKIN10 kinase activity-dependent protein modification. Transgenic plants expressing AKIN10 indicates that AKIN10 activity undermined AtMYC2-dependent salt tolerance. | Inverse modulation of the energy sensor Snf1-related protein kinase 1 on hypoxia adaptation and salt stress tolerance in Arabidopsis thaliana.
Im JH, Cho YH, Kim GD, Kang GH, Hong JW, Yoo SD. | 05/23/2015 |
| Arabidopsis SnRK1.1 phosphorylation of AL2 delays Cabbage leaf curl virus infection. | SnRK1 phosphorylation of AL2 delays Cabbage leaf curl virus infection in Arabidopsis.
Shen W, Dallas MB, Goshe MB, Hanley-Bowdoin L., Free PMC Article | 01/24/2015 |
| SnRK1 activities critically influence stress-inducible gene expression and the induction of stress tolerance. [SnRK1.1] | Regulatory functions of SnRK1 in stress-responsive gene expression and in plant growth and development.
Cho YH, Hong JW, Kim EC, Yoo SD., Free PMC Article | 10/30/2014 |
| ABI1 and PP2CA dephosphorylate and inactivate SnRK1 which represses SnRK1 signaling. | ABI1 and PP2CA phosphatases are negative regulators of Snf1-related protein kinase1 signaling in Arabidopsis.
Rodrigues A, Adamo M, Crozet P, Margalha L, Confraria A, Martinho C, Elias A, Rabissi A, Lumbreras V, González-Guzmán M, Antoni R, Rodriguez PL, Baena-González E., Free PMC Article | 08/30/2014 |
| T6P/SnRK1 signaling pathway responds to Suc induced by sink restriction that enables growth recovery following relief of limitations such as low temperature. [SnRK1] | The trehalose 6-phosphate/SnRK1 signaling pathway primes growth recovery following relief of sink limitation.
Nunes C, O'Hara LE, Primavesi LF, Delatte TL, Schluepmann H, Somsen GW, Silva AB, Fevereiro PS, Wingler A, Paul MJ., Free PMC Article | 07/9/2014 |
| FUS3 and AKIN10 functionally overlap in abscissic acid signaling, but play different roles in sugar responses during germination. | Overlapping and distinct roles of AKIN10 and FUSCA3 in ABA and sugar signaling during seed germination.
Tsai AY, Gazzarrini S., Free PMC Article | 05/18/2013 |
| FUS3 is phosphorylated by AKIN10. AKIN10 overexpression delays FUS3 degradation. AKIN10 and FUS3 function interactively to promote seed maturation, dormancy and inhibit developmental phase transitions. | AKIN10 and FUSCA3 interact to control lateral organ development and phase transitions in Arabidopsis.
Tsai AY, Gazzarrini S. | 07/21/2012 |
| Data show that PP2C74 interacts with AKIN10, the catalytic alpha subunit of the SnRK1 protein kinase complex, the beta subunits of which are known targets of myristoylation. | A putative myristoylated 2C-type protein phosphatase, PP2C74, interacts with SnRK1 in Arabidopsis.
Tsugama D, Liu S, Takano T. | 06/16/2012 |