Global profiling of N6 -methyladenosine methylation in maize callus induction

doi:10.1002/tpg2.20018

. 2020 Jul;13(2):e20018.

doi: 10.1002/tpg2.20018. Epub 2020 Apr 17.

Global profiling of N⁶ -methyladenosine methylation in maize callus induction

Xuemei Du¹, Ting Fang¹, Yan Liu¹, Meng Wang², Maosen Zang³, Liying Huang³, Sihan Zhen³, Jie Zhang³, Zichen Shi⁴, Guoying Wang¹, Junjie Fu¹, Yunjun Liu¹

Affiliations

¹ Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing, China.
² Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China.
³ College of Agronomy and Biotechnology, China Agricultural University, Beijing, China.
⁴ Beijing No.4 High School International Campus, China.

PMID: 33016611
DOI: 10.1002/tpg2.20018

Free article

Global profiling of N⁶ -methyladenosine methylation in maize callus induction

Xuemei Du et al. Plant Genome. 2020 Jul.

Free article

. 2020 Jul;13(2):e20018.

doi: 10.1002/tpg2.20018. Epub 2020 Apr 17.

Authors

Xuemei Du¹, Ting Fang¹, Yan Liu¹, Meng Wang², Maosen Zang³, Liying Huang³, Sihan Zhen³, Jie Zhang³, Zichen Shi⁴, Guoying Wang¹, Junjie Fu¹, Yunjun Liu¹

Affiliations

¹ Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing, China.
² Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China.
³ College of Agronomy and Biotechnology, China Agricultural University, Beijing, China.
⁴ Beijing No.4 High School International Campus, China.

PMID: 33016611
DOI: 10.1002/tpg2.20018

Abstract

Callus induction is a dedifferentiation process that accompanies a cell fate transition, and epigenetic regulation plays a crucial role in the process. N⁶ -methyladenosine (m6A) methylation is an important mechanism in post-transcriptional epigenetic regulation and functions in cell reprogramming. However, the function of m6A methylation during callus induction is still unknown. Here, we performed transcriptome-wide m6A-seq on immature maize embryos after culturing for 2, 4, or 8 days with or without the auxin analogue 2,4-D. A total of 26,794 unique m6A peaks were detected from 17,456 maize genes; and 2,338 specific, 2,4-D-induced m6A peaks (D-specific m6A) were detected only in embryos cultured with 2,4-D. Furthermore, a positive correlation between m6A methylation and mRNA abundance was discovered in the genes with D-specific m6A deposition, especially at the beginning of callus induction. Key genes involved in callus induction, i.e. BABY BOOM and LBD transcription factors, underwent m6A methylation, increasing their transcript levels, thus improving callus induction. These results revealed the importance of m6A methylation during the early stage of callus induction and provided new insights into the molecular mechanism of callus induction at an epitranscriptomic level.

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References

REFERENCES

1. Aguilo, F., Zhang, F., Sancho, A., Fidalgo, M., Di Cecilia, S., Vashisht, A., … Walsh, M. J. (2015). Coordination of m6A mRNA methylation and gene transcription by ZFP217 regulates pluripotency and reprogramming. Cell Stem Cell, 17, 689-704. https://doi.org/10.1016/j.stem.2015.09.005
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1. Argyros, R. D., Mathews, D. E., Chiang, Y. H., Palmer, C. M., Thibault, D. M., Etheridge, N., … Schaller, G. E. (2008). Type B response regulators of Arabidopsis play key roles in cytokinin signaling and plant development. Plant Cell, 20, 2102-2116. https://doi.org/10.1105/tpc.108.059584
1. Bailey, T. L. (2011). DREME: Motif discovery in transcription factor ChIP-seq data. Bioinformatics, 27, 1653-1659. https://doi.org/10.1093/bioinformatics/btr261
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[1] Aguilo, F., Zhang, F., Sancho, A., Fidalgo, M., Di Cecilia, S., Vashisht, A., … Walsh, M. J. (2015). Coordination of m6A mRNA methylation and gene transcription by ZFP217 regulates pluripotency and reprogramming. Cell Stem Cell, 17, 689-704. https://doi.org/10.1016/j.stem.2015.09.005

[2] Aguilo, F., Zhang, F., Sancho, A., Fidalgo, M., Di Cecilia, S., Vashisht, A., … Walsh, M. J. (2015). Coordination of m6A mRNA methylation and gene transcription by ZFP217 regulates pluripotency and reprogramming. Cell Stem Cell, 17, 689-704. https://doi.org/10.1016/j.stem.2015.09.005

[3] Anders, S., Pyl, P. T., & Huber, W. (2015). HTSeq-a Python framework to work with high-throughput sequencing data. Bioinformatics, 31, 166-169. https://doi.org/10.1093/bioinformatics/btu638

[4] Anders, S., Pyl, P. T., & Huber, W. (2015). HTSeq-a Python framework to work with high-throughput sequencing data. Bioinformatics, 31, 166-169. https://doi.org/10.1093/bioinformatics/btu638

[5] Argyros, R. D., Mathews, D. E., Chiang, Y. H., Palmer, C. M., Thibault, D. M., Etheridge, N., … Schaller, G. E. (2008). Type B response regulators of Arabidopsis play key roles in cytokinin signaling and plant development. Plant Cell, 20, 2102-2116. https://doi.org/10.1105/tpc.108.059584

[6] Argyros, R. D., Mathews, D. E., Chiang, Y. H., Palmer, C. M., Thibault, D. M., Etheridge, N., … Schaller, G. E. (2008). Type B response regulators of Arabidopsis play key roles in cytokinin signaling and plant development. Plant Cell, 20, 2102-2116. https://doi.org/10.1105/tpc.108.059584

[7] Bailey, T. L. (2011). DREME: Motif discovery in transcription factor ChIP-seq data. Bioinformatics, 27, 1653-1659. https://doi.org/10.1093/bioinformatics/btr261

[8] Bailey, T. L. (2011). DREME: Motif discovery in transcription factor ChIP-seq data. Bioinformatics, 27, 1653-1659. https://doi.org/10.1093/bioinformatics/btr261

[9] Bailey, T. L., Boden, M., Buske, F. A., Frith, M., Grant, C. E., Clementi, L., … Noble, W. S. (2009). MEME SUITE: Tools for motif discovery and searching. Nucleic Acids Research, 37, W202-W208. https://doi.org/10.1093/nar/gkp335

[10] Bailey, T. L., Boden, M., Buske, F. A., Frith, M., Grant, C. E., Clementi, L., … Noble, W. S. (2009). MEME SUITE: Tools for motif discovery and searching. Nucleic Acids Research, 37, W202-W208. https://doi.org/10.1093/nar/gkp335

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Global profiling of N⁶ -methyladenosine methylation in maize callus induction

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Global profiling of N⁶ -methyladenosine methylation in maize callus induction

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