Asymmetric epigenome maps of subgenomes reveal imbalanced transcription and distinct evolutionary trends in Brassica napus

Zhang, Qing; Guan, Pengpeng; Zhao, Lun; Ma, Meng; Xie, Liang; Li, Yue; Zheng, Ruiqin; Ouyang, Weizhi; Wang, Shunyao; Li, Hongmeijuan; Zhang, Ying; Peng, Yong; Cao, Zhilin; Zhang, Wei; Qin, Xiao; Xiao, Yuanling; Fu, Tingdong; Li, Guoliang; Li, Xingwang; Shen, Jinxiong

doi:10.1016/j.molp.2020.12.020

Cited by 46 publications

(48 citation statements)

References 66 publications

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“…We found that the C subgenome was significantly DNA methylation dominant in both resynthesized and natural B. napus (Figs 2a, Fig. S3), which was consistent with the findings of previous studies (Chalhoub et al ., 2014; Bird et al ., 2021; Zhang et al ., 2021). Chalhoub et al .…”

Section: Discussionmentioning

confidence: 99%

Asymmetric epigenetic modification and homoeolog expression bias in the establishment and evolution of allopolyploid Brassica napus

Sun

Wang

et al. 2021

New Phytologist

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Summary This study explores how allopolyploidization reshapes the biased expression and asymmetric epigenetic modification of homoeologous gene pairs, and examines the regulation types and epigenetic basis of expression bias. We analyzed the gene expression and four epigenetic modifications (DNA methylation, H3K4me3, H3K27me3 and H3K27ac) of 29 976 homoeologous gene pairs in resynthesized, natural allopolyploid Brassica napus and an in silico ‘hybrid’. We comprehensively elucidated the biased gene expression, asymmetric epigenetic modifications and the generational transmission characteristics of these homoeologous gene pairs in B. napus. We analyzed cis/trans effects and the epigenetic basis of homoeolog expression bias. There was a significant positive correlation between two active histone modifications and biased gene expression. We revealed that parental legacy was the dominant principle in the remodeling of homoeolog expression bias and asymmetric epigenetic modifications in B. napus, and further clarified that this depends on whether there were differences in the expression/epigenetic modifications of gene pairs in parents/progenitors. The maternal genome was dominant in the homoeolog expression bias of resynthesized B. napus, and this phenomenon was attenuated in natural B. napus. Furthermore, cis rather than trans effects were dominant when epigenetic modifications potentially affected biased expression of gene pairs in B. napus.

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Section: Discussionmentioning

confidence: 99%

Asymmetric epigenetic modification and homoeolog expression bias in the establishment and evolution of allopolyploid Brassica napus

Sun

Wang

et al. 2021

New Phytologist

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“…The biological function of bivalent chromatins has long been hypothesized to poise gene expression for rapid activation upon signal perception. To date, this model has been tested only in mammalian stem cells and cancer cells ( Zeng et al, 2019 ; Zhang et al, 2021 ; Deng et al, 2013 ), and no direct evidence is available in a whole organism context. As a first step to understand the role of the H3K27me3-H3K18ac bivalent chromatin on camalexin genes, we examined the transcriptional kinetics of camalexin biosynthesis genes under FLG22 induction in wild type and mutant lines with defective deposition of H3K27me3 or H3K18ac.…”

Section: Resultsmentioning

confidence: 99%

“…In plants, the H3K27m3-H3K4me3 bivalent chromatin has been observed at FLOWERING LOCUS C ( FLC ) ( Jiang et al, 2008 ) in A. thaliana and genes associated with cold stress in potato tuber ( Zeng et al, 2019 ). Recently, a novel bivalent chromatin formed by H3K27me3 and H3K4me1 was identified in Brassica napus ( Zhang et al, 2021 ). Therefore, bivalent chromatins can be formed by different pairs of epigenetic marks.…”

Section: Introductionmentioning

confidence: 99%

A novel bivalent chromatin associates with rapid induction of camalexin biosynthesis genes in response to a pathogen signal in Arabidopsis

Zhao

Kong

Jin

et al. 2021

eLife

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Temporal dynamics of gene expression underpin responses to internal and environmental stimuli. In eukaryotes, regulation of gene induction includes changing chromatin states at target genes and recruiting the transcriptional machinery that includes transcription factors. As one of the most potent defense compounds in Arabidopsis thaliana, camalexin can be rapidly induced by bacterial and fungal infections. Though several transcription factors controlling camalexin biosynthesis genes have been characterized, how the rapid activation of genes in this pathway upon a pathogen signal is enabled remains unknown. By combining publicly available epigenomic data with in vivo chromatin modification mapping, we found that camalexin biosynthesis genes are marked with two epigenetic modifications with opposite effects on gene expression, H3K27me3 (repression) and H3K18ac (activation), to form a previously uncharacterized type of bivalent chromatin. Mutants with reduced H3K27m3 or H3K18ac suggested that both modifications were required to determine the timing of gene expression and metabolite accumulation at an early stage of the stress response. Our study indicates that the H3K27me3-H3K18ac bivalent chromatin, which we name a kairostat, plays an important role controlling the timely induction of gene expression upon stimuli in plants.

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“…Enhanced ChIP-seq is an efficient protocol in profiling histone marks. It was used to map rice and B. napus reference epigenomes with considerably low background noise (Zhang et al, 2020;Zhao et al, 2020). To compare the signal-to-noise ratio of nCUT&Tag relative to eChIP-seq, we downsampled the sequencing reads at varying depth from 1-M to 24-M. Then we called peaks and calculated FRiP values under the same sequencing depth (Supplementary Table 3).…”

Section: Ncutandtag For Rapid Chromatin Profiling With Crosslinked Tissuementioning

confidence: 99%

“…nCUT&Tag Is Scalable for Chromatin Profiling in Other Plant Species Enhanced ChIP-seq has been used to map high-quality reference epigenomes in rice and B. napus (Zhang et al, 2020;Zhao et al, 2020). To examine whether nCUT&Tag could be applied to other plant species, we generated the nCUT&Tag data of the H3K4me3 antibody with crosslinked leaves of the dicot rapeseed (B. napus) (Figure 6A).…”

Section: Ncutandtag For Efficient Chromatin Profiling With Low-input Samplesmentioning

confidence: 99%

Rapid and Low-Input Profiling of Histone Marks in Plants Using Nucleus CUT&Tag

et al. 2021

Self Cite

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Characterizing genome-wide histone posttranscriptional modifications and transcriptional factor occupancy is crucial for deciphering their biological functions. Chromatin immunoprecipitation followed by sequencing (ChIP-seq) is a powerful method for genome-wide profiling of histone modifications and transcriptional factor-binding sites. However, the current ChIP-seq experimental procedure in plants requires significant material and several days for completion. CUT&Tag is an alternative method of ChIP-seq for low-sample and single-cell epigenomic profiling using protein A-Tn5 transposase fusion proteins (PAT). In this study, we developed a nucleus CUT&Tag (nCUT&Tag) protocol based on the live-cell CUT&Tag technology. Our results indicate that nCUT&Tag could be used for histone modifications profiling in both monocot rice and dicot rapeseed using crosslinked or fresh tissues. In addition, both active and repressive histone marks such as H3K4me3 and H3K9me2 can be identified using our nCUT&Tag. More importantly, all the steps in nCUT&Tag can be finished in only 1 day, and the assay can be performed with as little as 0.01 g of plant tissue as starting materials. Therefore, our results demonstrate that nCUT&Tag is an efficient alternative strategy for plant epigenomic studies.

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Asymmetric epigenome maps of subgenomes reveal imbalanced transcription and distinct evolutionary trends in Brassica napus

Cited by 46 publications

References 66 publications

Asymmetric epigenetic modification and homoeolog expression bias in the establishment and evolution of allopolyploid Brassica napus

Asymmetric epigenetic modification and homoeolog expression bias in the establishment and evolution of allopolyploid Brassica napus

A novel bivalent chromatin associates with rapid induction of camalexin biosynthesis genes in response to a pathogen signal in Arabidopsis

Rapid and Low-Input Profiling of Histone Marks in Plants Using Nucleus CUT&Tag

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