Epigenetics – The Molecular Tool in Understanding Abiotic Stress Response in Plants

395

Pandey, A. K., Gedda, M. R., & Verma, A. K., (2020). Effect of arsenic stress on expression

pattern of a rice specific miR156j at various developmental stages and their allied

co-expression target networks. Front. Plant Sci., 11, 752.

Pandey, C., Raghuram, B., Sinha, A. K., & Gupta, M., (2015). miRNA plays a role in the

antagonistic effect of selenium on arsenic stress in rice seedlings. Metallomics, 7(5),

857–866.

Pandey, R., MuÈller, A., Napoli, C. A., Selinger, D. A., Pikaard, C. S., Richards, E. J., Bender,

J., et al., (2002). Analysis of histone acetyltransferase and histone deacetylase families of

Arabidopsis thaliana suggests functional diversification of chromatin modification among

multicellular eukaryotes. Nucleic Acids Res., 30(23), 5036–5055.

Park, J., Lim, C. J., Shen, M., Park, H. J., Cha, J. Y., Iniesto, E., Rubio, V., et al., (2018).

Epigenetic switch from repressive to permissive chromatin in response to cold stress.

PNAS., 115(23), E5400–E5409.

Park, M., Keung, A. J., & Khalil, A. S., (2016). The epigenome: The next substrate for

engineering. Genome Biol., 17(1), 1–17.

Park, P. J., (2009). ChIP-seq: Advantages and challenges of a maturing technology. Nat. Rev.

Genet., 10(10), 669–680.

Pavangadkar, K., Thomashow, M. F., & Triezenberg, S. J., (2010). Histone dynamics and

roles of histone acetyltransferases during cold-induced gene regulation in Arabidopsis.

Plant Mol. Biol., 74(1), 183–200.

Pecinka, A., & Mittelsten, S. O., (2012). Stress-induced chromatin changes: A critical view on

their heritability. Plant Cell Physiol., 53(5), 801–808.

Peng, M., Ying, P., Liu, X., Li, C., Xia, R., Li, J., & Zhao, M., (2017). Genome-wide

identification of histone modifiers and their expression patterns during fruit abscission in

litchi. Front. Plant Sci., 8, 639.

Pikaard, C. S., & Scheid, O. M., (2014). Epigenetic regulation in plants. Cold Spring Harb.

Perspect. Biol., 6(12), a019315.

Platt, A., Gugger, P. F., Pellegrini, M., & Sork, V. L., (2015). Genome‐wide signature of local

adaptation linked to variable C p G methylation in oak populations. Mol. Ecol., 24(15),

3823–3830.

Popova, O. V., Dinh, H. Q., Aufsatz, W., & Jonak, C., (2013). The RdDM pathway is required

for basal heat tolerance in Arabidopsis. Mol. Plant., 6(2), 396–410.

Pourdad, S., & Beg, A., (2003). In Safflower: A suitable oilseed crop for dry-land areas of

Iran. Proc. 7^th Int. Conference on Development of Drylands (pp. 32, 33).

R, M., S. K., Wang, Y., Zhang, X., Cheng, H., Sun, L., He, S., & Hao, F., (2020). Redox

components: Key regulators of epigenetic modifications in plants. Int. J. Mol. Sci., 21(4).

Rahman, M., Lee, S. H., Ji, H. C., Kabir, A. H., Jones, C. S., & Lee, K. W., (2018). Importance

of mineral nutrition for mitigating aluminum toxicity in plants on acidic soils: Current

status and opportunities. Int. J. Mol. Sci., 19(10), 3073.

Ramirez-Prado, J. S., Abulfaraj, A. A., Rayapuram, N., Benhamed, M., & Hirt, H., (2018).

Plant immunity: From signaling to epigenetic control of defense. Trends Plant Sci., 23(9),

833–844.

Ransom, M., Dennehey, B. K., & Tyler, J. K., (2010). Chaperoning histones during DNA

replication and repair. Cell, 140(2), 183–195.

Rascio, N., & Navari-Izzo, F., (2011). Heavy metal hyperaccumulating plants: How and why

do they do it? And what makes them so interesting? Plant Sci., 180(2), 169–181.