Characterization of the Key Region and Key Phosphorylation Sites of EcaICE1 for its Molecular Interaction with EcaHOS1 Protein in Eucalyptus camaldulensis

Abstract: Background ICE1 (inducer of CBF expression 1), a MYC-like bHLH transcriptional activator, plays an important role in plant under cold stress via regulating transcriptional expression of downstream cold-responsive genes. Ubiquitination-proteasome pathway mediated by high expression of osmotically responsive gene1 (HOS1) can effectively induce the degradation of ICE1 and decrease the expression of expression of CBFs and their downstream genes under cold stress response in Arabidopsis , but the knowledge about ub… Show more

“…Mechanically, cold stress can initiate membrane rigidification, which results in a Ca 2+ influx and MAPK cascade activations, probably causing ICE1 phosphorylation and relative conformation changes. Especially, Ser185 phosphorylation of ICE1 may promote its binding to HOS1 and subsequent degradation, because the S158A mutant of ICE1 was reported to lose the capacity to interact with HOS1 in a yeast two-hybrid assay ( Cheng et al 2020 ). However, no protein ubiquitination in response to such severe cold stress has been reported in animals and humans.…”

The ubiquitin codes in cellular stress responses

“…Mechanically, cold stress can initiate membrane rigidification, which results in a Ca 2+ influx and MAPK cascade activations, probably causing ICE1 phosphorylation and relative conformation changes. Especially, Ser185 phosphorylation of ICE1 may promote its binding to HOS1 and subsequent degradation, because the S158A mutant of ICE1 was reported to lose the capacity to interact with HOS1 in a yeast two-hybrid assay ( Cheng et al 2020 ). However, no protein ubiquitination in response to such severe cold stress has been reported in animals and humans.…”

The ubiquitin codes in cellular stress responses