| RACK1 links phyB and BES1 to coordinate brassinosteroid-dependent root meristem development. | RACK1 links phyB and BES1 to coordinate brassinosteroid-dependent root meristem development.
Zhu W, Fu Y, Zhou H, Zhou Y, Zhang D, Wang Y, Su Y, Li Z, Liang J. | 10/8/2024 |
| RACK1A promotes hypocotyl elongation by scaffolding light signaling components in Arabidopsis. | RACK1A promotes hypocotyl elongation by scaffolding light signaling components in Arabidopsis.
Fu Y, Zhu W, Zhou Y, Su Y, Li Z, Zhang D, Zhang D, Shen J, Liang J. | 06/5/2024 |
| Scaffold protein RACK1A positively regulates leaf senescence by coordinating the EIN3-miR164-ORE1 transcriptional cascade in Arabidopsis. | Scaffold protein RACK1A positively regulates leaf senescence by coordinating the EIN3-miR164-ORE1 transcriptional cascade in Arabidopsis.
Masood J, Zhu W, Fu Y, Li Z, Zhou Y, Zhang D, Han H, Yan Y, Wen X, Guo H, Liang J. | 07/19/2023 |
| down-regulation of auxin signaling through RACK1A induced miR393 biogenesis potentially regulates the Arabidopsis acclimation to salinity. | miR393s regulate salt stress response pathway in Arabidopsis thaliana through scaffold protein RACK1A mediated ABA signaling pathways.
Denver JB, Ullah H., Free PMC Article | 05/2/2020 |
| the genes responsible for two additional suppressor mutants of acl5-1 designated sac53-d and sac56-d encode a receptor for activated C kinase 1 (RACK1) homolog and a ribosomal protein L4 (RPL4), respectively | Mutations in ribosomal proteins, RPL4 and RACK1, suppress the phenotype of a thermospermine-deficient mutant of Arabidopsis thaliana.
Kakehi J, Kawano E, Yoshimoto K, Cai Q, Imai A, Takahashi T., Free PMC Article | 01/16/2016 |
| In total 97 proteins from dehydration, salt stress, ribosomal and photosynthesis pathways are found to potentially interact with RACK1A. | Arabidopsis scaffold protein RACK1A interacts with diverse environmental stress and photosynthesis related proteins.
Kundu N, Dozier U, Deslandes L, Somssich IE, Ullah H., Free PMC Article | 06/21/2014 |
| RACK1 ensures the accumulation and processing of some miRNA precursors, directly interacts with SERRATE and is part of an AGO1 complex | RACK1 scaffold proteins influence miRNA abundance in Arabidopsis.
Speth C, Willing EM, Rausch S, Schneeberger K, Laubinger S. | 05/31/2014 |
| RACK1A protein can form complexes with the gamma subunit of the signal transducing heterotrimeric G protein. | Arabidopsis thaliana Nudix hydrolase AtNUDT7 forms complexes with the regulatory RACK1A protein and Ggamma subunits of the signal transducing heterotrimeric G protein.
Olejnik K, Bucholc M, Anielska-Mazur A, Lipko A, Kujawa M, Modzelan M, Augustyn A, Kraszewska E. | 05/5/2012 |
| RACK1 may be required for normal production of 60S and 80S ribosomes and that its action in these processes may be regulated by abscissic acid. [RACK1A] | Involvement of Arabidopsis RACK1 in protein translation and its regulation by abscisic acid.
Guo J, Wang S, Valerius O, Hall H, Zeng Q, Li JF, Weston DJ, Ellis BE, Chen JG., Free PMC Article | 04/25/2011 |
| RACK1 genes act redundantly to negatively regulate abscisic acid responses during seed germination and early seedling development. | RACK1 is a negative regulator of ABA responses in Arabidopsis.
Guo J, Wang J, Xi L, Huang WD, Liang J, Chen JG., Free PMC Article | 01/21/2010 |
| RACK1A (At1g18080) is positively regulated by other RACK1 genes. Loss of function causes defect in plant development. | RACK1 genes regulate plant development with unequal genetic redundancy in Arabidopsis.
Guo J, Chen JG., Free PMC Article | 01/21/2010 |
| RACK1A (At1g18080) is involved in multiple signal transduction pathways. | RACK1 mediates multiple hormone responsiveness and developmental processes in Arabidopsis.
Chen JG, Ullah H, Temple B, Liang J, Guo J, Alonso JM, Ecker JR, Jones AM. | 01/21/2010 |