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@ARTICLE{Luo:290587,
author = {X. Luo and X. Jiang and V. Schmitt and S. R. Kulkarni$^*$
and H. C. Tran and S. M. Kacprzak and F. Van Breusegem and
O. Van Aken and K. Vandepoele and I. De Clercq},
title = {{A}rabidopsis transcription factor {ANAC}102 predominantly
expresses a nuclear protein and acts as a negative regulator
of methyl viologen-induced oxidative stress responses},
journal = {The journal of experimental botany},
volume = {75},
number = {15},
issn = {0022-0957},
address = {Oxford},
publisher = {Oxford Univ. Press},
reportid = {DKFZ-2024-01184},
pages = {4655-4670},
year = {2024},
note = {DKFZ-ZMBH Alliance / 2024 Aug 12;75(15):4655-4670},
abstract = {Plants, being sessile organisms, constantly need to respond
to environmental stresses, often leading to the accumulation
of reactive oxygen species (ROS). While ROS can be harmful,
they also act as messengers guiding plant growth and stress
responses. Because chloroplasts are sensitive to
environmental changes and are both a source and target of
ROS during stress conditions, they are important in
conveying environmental changes to the nucleus, where
acclimation responses are coordinated to maintain organellar
and overall cellular homeostasis. ANAC102 has previously
been established as a regulator of β-cyclocitral-mediated
chloroplast-to-nucleus signaling, protecting plants against
photooxidative stress. However, debates persist about where
ANAC102 is located - in chloroplasts or in the nucleus. Our
study, utilizing the genomic ANAC102 sequence driven by its
native promoter, establishes ANAC102 primarily as a nuclear
protein, lacking a complete N-terminal chloroplast-targeting
peptide. Moreover, our research reveals the sensitivity of
plants overexpressing ANAC102 to severe superoxide-induced
chloroplast oxidative stress. Transcriptome analysis
unraveled ANAC102's dual role in negatively and positively
regulating genome-wide transcriptional responses to
chloroplast oxidative stress. Through the integration of
published data and our own study, we constructed a
comprehensive transcriptional network, which suggests that
ANAC102 exerts direct and indirect control over
transcriptional responses through downstream transcription
factor networks, providing deeper insights into the
ANAC102-mediated regulatory landscape during oxidative
stress.},
keywords = {Arabidopsis (Other) / chloroplasts (Other) / gene
regulatory networks (Other) / oxidative stress (Other) /
retrograde signaling (Other) / transcription factors
(Other)},
cin = {A190},
ddc = {580},
cid = {I:(DE-He78)A190-20160331},
pnm = {311 - Zellbiologie und Tumorbiologie (POF4-311)},
pid = {G:(DE-HGF)POF4-311},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:38812358},
doi = {10.1093/jxb/erae235},
url = {https://inrepo02.dkfz.de/record/290587},
}
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