Biology and Biotechnology of Environmental Stress Tolerance in Plants (Aryadeep Roychoudhury)

236

Biology and Biotechnology of Environmental Stress Tolerance in Plants, Volume 3

Yu, Y. T., Wu, Z., Lu, K., Bi, C., Liang, S., Wang, X. F., & Zhang, D. P., (2016). Overexpression

of the MYB37 transcription factor enhances abscisic acid sensitivity and improves both

drought tolerance and seed productivity in Arabidopsis thaliana. Plant. Mol. Biol., 90,

267–279.

Yu, Y., Ni, Z., Chen, Q., & Qu, Y., (2017). The wheat salinity-induced R2R3-MYB transcription

factor TaSIM confers salt stress tolerance in Arabidopsis thaliana. Biochem. Biophys. Res.

Commun., 491, 642–648.

Yu, Y., Wang, L., Chen, J., Liu, Z., Park, C. M., & Xiang, F., (2018). WRKY71 acts

antagonistically against salt-delayed flowering in Arabidopsis thaliana. Plant Cell Physiol.,

59, 414–422.

Yuan, X., Wang, H., Cai, J., Bi, Y., Li, D., & Song, F., (2019). Rice NAC transcription factor

ONAC066 functions as a positive regulator of drought and oxidative stress response. BMC

Plant Biol., 19, 278.

Zandalinas, S. I., Sales, C., Beltran, J., Gómez-Cadenas, A., & Arbona, V., (2017). Activation

of secondary metabolism in citrus plants is associated to sensitivity to combined drought

and high temperatures. Front. Plant Sci., 7, 1954.

Zhai, Y., Zhang, L., Xia, C., Fu, S., Zhao, G., Jia, J., & Kong, X., (2016). The wheat transcription

factor, TabHLH39, improves tolerance to multiple abiotic stressors in transgenic plants.

Biochem. Biophys. Res. Commun., 473, 1321–1327.

Zhang, C., Liu, J., Zhao, T., Gomez, A., Li, C., Yu, C., Li, H., Lin, J., Yang, Y., Liu, B., et al.,

(2016). A drought-inducible transcription factor delays reproductive timing in rice. Plant

Physiol., 171, 334–343.

Zhang, J. Y., Broeckling, C. D., Blancaflor, E. B., Sledge, M. K., Sumner, L. W., & Wang,

Z. Y., (2005). Overexpression of WXP1, a putative Medicago truncatula AP2 domain-

containing transcription factor gene, increases cuticular wax accumulation and enhances

drought tolerance in transgenic alfalfa (Medicago sativa). Plant J., 42, 689–707.

Zhang, J. Y., Broeckling, C. D., Sumner, L. W., & Wang, Z. Y., (2007). Heterologous

expression of two Medicago truncatula putative ERF transcription factor genes, WXP1

and WXP2, in Arabidopsis led to increased leaf wax accumulation and improved drought

tolerance, but differential response in freezing tolerance. Plant Mol. Biol., 64, 265–278.

Zhang, L., Zhang, L., Xia, C., Zhao, G., Jia, J., & Kong, X., (2016). The novel wheat

transcription factor TaNAC47 enhances multiple abiotic stress tolerances in transgenic

plants. Front. Plant Sci., 6, 1174.

Zhang, L., Zhang, L., Xia, C., Zhao, G., Liu, J., Jia, J., et al., (2015). A novel wheat bZIP

transcription factor, TabZIP60, confers multiple abiotic stress tolerances in transgenic

Arabidopsis. Physiol. Plant., 153, 538–554.

Zhang, P., Wang, R., Yang, X., Ju, Q., Li, W., Lu, S., Tran, L. P., & Xu, J., (2020). The R2R3

MYB transcription factor AtMYB49 modulates salt tolerance in Arabidopsis by modulating

the cuticle formation and antioxidant defense. Plant Cell Environ., 43, 1925–1943.

Zhang, Q., Wang, M., Hu, J., Wang, W., Fu, X., & Liu, J. H., (2015). PtrABF of Poncirus

trifoliata functions in dehydration tolerance by reducing stomatal density and maintaining

reactive oxygen species homeostasis. J. Exp. Bot., 66, 5911–5927.

Zhang, T., Mo, J., Zhou, K., Chang, Y., & Liu, Z., (2018). Overexpression of Brassica

campestris BcICE1 gene increases abiotic stress tolerance in tobacco. Plant Physiol.

Biochem., 132, 515–523.