期刊
PLANT MOLECULAR BIOLOGY
卷 54, 期 4, 页码 549-569出版社
SPRINGER
DOI: 10.1023/B:PLAN.0000038269.98972.bb
关键词
calcium; calmodulin; calmodulin-binding protein; signal transduction; transcriptional regulation
A novel CaM-binding protein was isolated through protein-protein interaction based screening of an Arabidopsis cDNA expression library using a 35 S calmodulin (CaM) probe. There are four additional homologs in the Arabidopsis genome with similar structures: a BTB domain in the N-terminus and a Zf-TAZ domain in the C-terminus. Hence, they were designated as AtBT1-5 (Arabidopsis thaliana BTB and TAZ domain protein). CaM-binding experiments revealed that all five AtBTs are CaM-binding proteins, and their CaM-binding domains were mapped to the C-terminus. AtBT homologs are also present in rice, but are not present in human, animal, yeast or other organisms, suggesting that the BTB and TAZ domain proteins are plant-specific. The AtBT1-smGFP fusion protein expressed in tobacco BY-2 cells showed that AtBT1 targets the nucleus. Yeast two-hybrid screening using an AtBT1 fragment as bait identified two interacting proteins (AtBET10 and AtBET9) belonging to the family of fsh/Ring3 class transcription regulators. The BTB domain of the AtBTs is required for the interaction, and this protein-protein interaction was confirmed by GST pull-down. AtBET10 also interacts with AtBT2 and AtBT4, and exhibited a transcriptional activation function in yeast cells. AtBTs exhibit varying responses to different stress stimuli, but all five genes responded rapidly to H2O2 and salicylic acid ( SA) treatments. These results suggest that AtBTs play a role in transcriptional regulation, and signal molecules such as Ca2+, H2O2, and SA affect transcriptional machinery by altering the expression and conformation of AtBTs which interact with transcriptional activators such as AtBET10.
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