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The interplay of chromatin landscape and DNA-binding context suggests distinct modes of EIN3 regulation in Arabidopsis thaliana. / Zemlyanskaya, Elena V.; Levitsky, Victor G.; Oshchepkov, Dmitry Y. et al.
In: Frontiers in Plant Science, Vol. 7, 2044, 09.01.2017.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - The interplay of chromatin landscape and DNA-binding context suggests distinct modes of EIN3 regulation in Arabidopsis thaliana
AU - Zemlyanskaya, Elena V.
AU - Levitsky, Victor G.
AU - Oshchepkov, Dmitry Y.
AU - Grosse, Ivo
AU - Mironova, Victoria V.
PY - 2017/1/9
Y1 - 2017/1/9
N2 - The plant hormone ethylene regulates numerous developmental processes and stress responses. Ethylene signaling proceeds via a linear pathway, which activates transcription factor (TF) EIN3, a primary transcriptional regulator of ethylene response. EIN3 influences gene expression upon binding to a specific sequence in gene promoters. This interaction, however, might be considerably affected by additional cofactors. In this work, we perform whole genome bioinformatics study to identify the impact of epigenetic factors in EIN3 functioning. The analysis of publicly available ChIPSeq data on EIN3 binding in Arabidopsis thaliana showed bimodality of distribution of EIN3 binding regions (EBRs) in gene promoters. Besides a sharp peak in close proximity to transcription start site, which is a common binding region for a wide variety of TFs, we found an additional extended peak in the distal promoter region. We characterized all EBRs with respect to the epigenetic status appealing to previously published genomewide map of nine chromatin states in A. thaliana. We found that the implicit distal peak was associated with a specific chromatin state (referred to as chromatin state 4 in the primary source), which was just poorly represented in the pronounced proximal peak. Intriguingly, EBRs corresponding to this chromatin state 4 were significantly associated with ethylene response, unlike the others representing the overwhelming majority of EBRs related to the explicit proximal peak. Moreover, we found that specific EIN3 binding sequences predicted with previously described model were enriched in the EBRs mapped to the chromatin state 4, but not to the rest ones. These results allow us to conclude that the interplay of genetic and epigenetic factors might cause the distinct modes of EIN3 regulation.
AB - The plant hormone ethylene regulates numerous developmental processes and stress responses. Ethylene signaling proceeds via a linear pathway, which activates transcription factor (TF) EIN3, a primary transcriptional regulator of ethylene response. EIN3 influences gene expression upon binding to a specific sequence in gene promoters. This interaction, however, might be considerably affected by additional cofactors. In this work, we perform whole genome bioinformatics study to identify the impact of epigenetic factors in EIN3 functioning. The analysis of publicly available ChIPSeq data on EIN3 binding in Arabidopsis thaliana showed bimodality of distribution of EIN3 binding regions (EBRs) in gene promoters. Besides a sharp peak in close proximity to transcription start site, which is a common binding region for a wide variety of TFs, we found an additional extended peak in the distal promoter region. We characterized all EBRs with respect to the epigenetic status appealing to previously published genomewide map of nine chromatin states in A. thaliana. We found that the implicit distal peak was associated with a specific chromatin state (referred to as chromatin state 4 in the primary source), which was just poorly represented in the pronounced proximal peak. Intriguingly, EBRs corresponding to this chromatin state 4 were significantly associated with ethylene response, unlike the others representing the overwhelming majority of EBRs related to the explicit proximal peak. Moreover, we found that specific EIN3 binding sequences predicted with previously described model were enriched in the EBRs mapped to the chromatin state 4, but not to the rest ones. These results allow us to conclude that the interplay of genetic and epigenetic factors might cause the distinct modes of EIN3 regulation.
KW - Bioinformatics
KW - ChIP-Seq
KW - EIN3 binding site (EBS)
KW - ETHYLENE-INSENSITIVE3
KW - Gene ontology
KW - Position weight matrix
KW - TEIL
KW - Transcriptional regulation
KW - position weight matrix
KW - transcriptional regulation
KW - RESPONSE PATHWAY
KW - ETHYLENE INSENSITIVE3
KW - bioinformatics
KW - Gene Ontology
KW - JASMONATE
UR - http://www.scopus.com/inward/record.url?scp=85009761327&partnerID=8YFLogxK
U2 - 10.3389/fpls.2016.02044
DO - 10.3389/fpls.2016.02044
M3 - Article
C2 - 28119721
AN - SCOPUS:85009761327
VL - 7
JO - Frontiers in Plant Science
JF - Frontiers in Plant Science
SN - 1664-462X
M1 - 2044
ER -
ID: 10315446