PKL is stabilized by MMS21 to negatively regulate Arabidopsis drought tolerance through directly repressing AFL1 transcription

Abstract: Summary Drought stress causes substantial losses in crop production per year worldwide, threatening global food security. Identification of the genetic components underlying drought tolerance in plants is of great importance. In this study, we report that loss‐of‐function of the chromatin‐remodeling factor PICKLE (PKL), which is involved in repression of transcription, enhances drought tolerance of Arabidopsis. At first, we find that PKL interacts with ABI5 to regulate seed germination, but PKL regulates dro… Show more

“…The coding sequences of TaWD40 and Q were cloned into the pEarleyGate 201-YN (nYFP-TaWD40) and pEarleyGate 202-YC vectors (cYFP-Q) using Gateway system, respectively (Ju et al, 2019). The BiFC assays were performed as previous study (Jing et al, 2023).…”

Q negatively regulates wheat salt tolerance through directly repressing the expression of TaSOS1 and reactive oxygen species scavenging genes

“…The coding sequences of TaWD40 and Q were cloned into the pEarleyGate 201-YN (nYFP-TaWD40) and pEarleyGate 202-YC vectors (cYFP-Q) using Gateway system, respectively (Ju et al, 2019). The BiFC assays were performed as previous study (Jing et al, 2023).…”

Q negatively regulates wheat salt tolerance through directly repressing the expression of TaSOS1 and reactive oxygen species scavenging genes

Generation of viable hypomorphic and null mutant plants via CRISPR-Cas9 targeting mRNA splicing sites

PICKLE-mediated nucleosome condensing drives H3K27me3 spreading for the inheritance of Polycomb memory during differentiation