The p70 ribosomal S6 kinase (S6K) family is a group of highly conserved kinases in eukaryotes that regulates cell growth, cell proliferation, and stress response via modulating protein synthesis and ribosomal biogenesis. S6Ks are downstream effectors of the Target of Rapamycin (TOR) pathway, which connects nutrient and energy signaling to growth and homeostasis, under normal and stress conditions. The plant S6K family includes two isoforms, S6K1 and S6K2, which, despite their high level of sequence similarity, have distinct functions and regulation mechanisms. Significant advances on the characterization of human S6Ks have occurred in the past few years, while studies on plant S6Ks are scarce. In this article, we review expression and activation of the two S6K isoforms in plants and we discuss their roles in mediating responses to stresses and developmental cues.
B3 transcription factors constitute a large plant-specific protein superfamily, which plays a central role in plant life. Family members are characterized by the presence of B3 DNA-binding domains (DBDs). To date, only a few B3 DBDs were structurally characterized; therefore, the DNA recognition mechanism of other family members remains to be elucidated. Here, we analyze DNA recognition mechanism of two structurally uncharacterized B3 transcription factors, ABI3 and NGA1. Guided by the structure of the DNA-bound B3 domain of Arabidopsis transcriptional repressor VAL1, we have performed mutational analysis of the ABI3 B3 domain. We demonstrate that both VAL1-B3 and ABI3-B3 recognize the Sph/RY DNA sequence 5'-TGCATG-3' via a conserved set of base-specific contacts. We have also solved a 1.8 Å apo-structure of NGA1-B3, DBD of Arabidopsis transcription factor NGA1. We show that NGA1-B3, like the structurally related RAV1-B3 domain, is specific for the 5'-CACCTG-3' DNA sequence, albeit tolerates single base pair substitutions at the 5'-terminal half of the recognition site. Employing distance-dependent fluorophore quenching, we show that NGA1-B3 binds the asymmetric recognition site in a defined orientation, with the 'N-arm' and 'C-arm' structural elements interacting with the 5'- and 3'-terminal nucleotides of the 5'-CACCTG-3' sequence, respectively. Mutational analysis guided by the model of DNA-bound NGA1-B3 helped us identify NGA1-B3 residues involved in base-specific and DNA backbone contacts, providing new insights into the mechanism of DNA recognition by plant B3 domains of RAV and REM families. DATABASES: RCSB Protein Data Bank, accession number 5OS9.
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