390
Biology and Biotechnology of Environmental Stress Tolerance in Plants, Volume 3
Flowers, T., (2004). Improving crop salt tolerance. J. Exp. Bot., 55(396), 307–319.
Fortes, A. M., & Gallusci, P., (2017). Plant stress responses and phenotypic plasticity in the
epigenomics era: Perspectives on the grapevine scenario, a model for perennial crop plants.
Front. Plant Sci., 8, 82.
Friedrich, T., Faivre, L., Bäurle, I., & Schubert, D., (2019). Chromatin‐based mechanisms of
temperature memory in plants. Plant Cell Environ., 42(3), 762–770.
Fryzova, R., Pohanka, M., Martinkova, P., Cihlarova, H., Brtnicky, M., Hladky, J., & Kynicky,
J., (2017). Oxidative stress and heavy metals in plants. Rev. Environ. Contam. T., 245,
129–156.
Gallo-Franco, J. J., Sosa, C. C., Ghneim-Herrera, T., & Quimbaya, M., (2020). Epigenetic
control of plant response to heavy metal stress: A new view on aluminum tolerance. Front.
Plant Sci., 11.
Gaspar, T., Franck, T., Bisbis, B., Kevers, C., Jouve, L., Hausman, J. F., & Dommes, J.,
(2002). Concepts in plant stress physiology. Application to plant tissue cultures. Plant
Growth Regul., 37(3), 263–285.
Geng, F., Wenzel, S., & Tansey, W. P., (2012). Ubiquitin and proteasomes in transcription.
Annu. Rev. Biochem., 81, 177–201.
Giuntoli, B., Shukla, V., Maggiorelli, F., Giorgi, F. M., Lombardi, L., Perata, P., & Licausi, F.,
(2017). Age‐dependent regulation of ERF‐VII transcription factor activity in Arabidopsis
thaliana. Plant Cell Environ., 40(10), 2333–2346.
Grafi, G., & Ohad, N., (2013). Plant epigenetics: A historical perspective. In: Grafi, G., &
Ohad, N., (eds.), Epigenetic Memory and Control in Plants (pp. 1–19). Springer: Berlin
Heidelberg.
Grant-Downton, R., & Dickinson, H., (2005). Epigenetics and its implications for plant
biology. 1. The epigenetic network in plants. Ann. Bot., 96(7), 1143–1164.
Grativol, C., Hemerly, A. S., & Ferreira, P. C. G., (2012). Genetic and epigenetic regulation
of stress responses in natural plant populations. Biochim. Biophys. Acta Gene Regul. Mech.
BBA-Gene. Regul Mech., 1819(2), 176–185.
Gravot, A., Richard, G., Lime, T., Lemarié, S., Jubault, M., Lariagon, C., Lemoine, J., et
al., (2016). Hypoxia response in Arabidopsis roots infected by Plasmodiophora brassicae
supports the development of clubroot. BMC Plant Biol., 16(1), 1–10.
Gu, H., Smith, Z. D., Bock, C., Boyle, P., Gnirke, A., & Meissner, A., (2011). Preparation of
reduced representation bisulfite sequencing libraries for genome-scale DNA methylation
profiling. Nat. Protoc., 6(4), 468–481.
Gull, A., Lone, A. A., & Wani, N. U. I., (2019). Biotic and abiotic stresses in plants. In: De
Oliveira, A. B., (ed.), Abiotic and Biotic Stress in Plants (pp. 1–19). Intech Open.
Gullì, M., Marchi, L., Fragni, R., Buschini, A., & Visioli, G., (2018). Epigenetic modifications
preserve the hyperaccumulator Noccaea caerulescens from Ni geno‐toxicity. Environ. Mol.
Mutagen., 59(6), 464–475.
Guo, H., Wu, T., Li, S., He, Q., Yang, Z., Zhang, W., Gan, Y., et al., (2019). The methylation
patterns and transcriptional responses to chilling stress at the seedling stage in rice. Int. J.
Mol. Sci., 20(20), 5089.
Guo, X., Liu, D., & Chong, K., (2018). Cold signaling in plants: Insights into mechanisms and
regulation. J. Integr. Plant Biol., 60(9), 745–756.
Gupta, B., & Huang, B., (2014). Mechanism of salinity tolerance in plants: Physiological,
biochemical, and molecular characterization. Int. J. Genomics, 2014.