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

387

Alter, S., Bader, K. C., Spannagl, M., Wang, Y., Bauer, E., Schön, C. C., & Mayer, K. F.,

(2015). DroughtDB: An expert-curated compilation of plant drought stress genes and their

homologs in nine species. Database, 2015, bav046.

Andrews, F. H., Strahl, B. D., & Kutateladze, T. G., (2016). Insights into newly discovered

marks and readers of epigenetic information. Nat. Chem. Biol., 12(9), 662–668.

Arunanondchai, P., Fei, C., Fisher, A., McCarl, B. A., Wang, W., & Yang, Y., (2018). How

does climate change affect agriculture. In: Cramer, G. L., Paudel, K. P., & Schmitz, A.,

(eds.), The Routledge Handbook of Agricultural Economics (p. 191). Routledge.

Asensi-Fabado, M. A., Amtmann, A., & Perrella, G., (2017). Plant responses to abiotic stress:

The chromatin context of transcriptional regulation. Biochim. Biophys. Acta Gene Regul.

Mech., 1860(1), 106–122.

Ashapkin, V. V., Kutueva, L. I., & Vanyushin, B. F., (2002). The gene for domains rearranged

methyltransferase (DRM2) in Arabidopsis thaliana plants is methylated at both cytosine

and adenine residues. FEBS Lett., 532(3), 367–372.

Ashapkin, V. V., Kutueva, L. I., Aleksandrushkina, N. I., & Vanyushin, B. F., (2020).

Epigenetic mechanisms of plant adaptation to biotic and abiotic stresses. Int. J. Mol. Sci.,

21(20), 7457.

Ashraf, M. A., Akbar, A., Askari, S. H., Iqbal, M., Rasheed, R., & Hussain, I., (2018). Recent

advances in abiotic stress tolerance of plants through chemical priming: An overview.

In: Rakshit, A., & Singh, H., (eds.), Advances in Seed Priming (pp. 51–79). Springer,

Singapore. https://doi.org/10.1007/978-981-13-0032-5_4.

Avramova, Z., (2011). Epigenetic regulatory mechanisms in plants. In: Tollefsbol, T.,

(ed.), Handbook of Epigenetics (pp. 251–278). Academic Press. https://doi.org/10.1016/

C2009-0-30488-2.

Azahar, I., Ghosh, S., Adhikari, A., Adhikari, S., Roy, D., Shaw, A. K., Singh, K., & Hossain,

Z., (2020). Comparative analysis of maize root sRNA transcriptome unveils the regulatory

roles of miRNAs in submergence stress response mechanism. Environ. Exp. Bot., 171,

103924.

Baek, D., Jiang, J., Chung, J. S., Wang, B., Chen, J., Xin, Z., & Shi, H., (2011). Regulated

AtHKT1 gene expression by a distal enhancer element and DNA methylation in the

promoter plays an important role in salt tolerance. Plant Cell Physiol., 52(1), 149–161.

Baek, D., Shin, G., Kim, M. C., Shen, M., Lee, S. Y., & Yun, D. J., (2020). Histone deacetylase

HDA9 with ABI4 contributes to abscisic acid homeostasis in drought stress response.

Front. Plant Sci., 11, 143.

Bailey-Serres, J., & Voesenek, L., (2008). Flooding stress: Acclimations and genetic diversity.

Annu. Rev. Plant Biol., 59, 313–339.

Bannister, A. J., & Kouzarides, T., (2011). Regulation of chromatin by histone modifications.

Cell Res., 21(3), 381–395.

Barrett-Lennard, E., (2003). The interaction between waterlogging and salinity in higher

plants: Causes, consequences and implications. Plant and Soil, 253(1), 35–54.

Benevenuto, R. F., Agapito-Tenfen, S. Z., Vilperte, V., Wikmark, O. G., Van, R. P. J., & Nodari,

R. O., (2017). Molecular responses of genetically modified maize to abiotic stresses as

determined through proteomic and metabolomic analyses. PLoS One, 12(2), e0173069.

Berger, S. L., (2007). The complex language of chromatin regulation during transcription.

Nature, 447(7143), 407–412.

Bernstein, B. E., Meissner, A., & Lander, E. S., (2007). The mammalian epigenome. Cell,

128(4), 669–681.