Publications

Choi, B. Y., Park, H., Kim, J., Wang, S., Lee, J., Lee, Y., & Shim, D. (2023). BLZ8 activates a plastidial peroxiredoxin and a ferredoxin to protect Chlamydomonas reinhardtii against oxidative stress. Plant biology (Stuttgart, Germany), 10.1111/plb.13552.

Yu, Y., Wang, S., Wang, Z., Gao, R., & Lee, J. (2023). Arabidopsis thaliana: a powerful model organism to explore histone modifications and their upstream regulations. Epigenetics, 18(1), 2211362.

Yu, Y., Wang, Y., Yao, Z., Wang, Z., Xia, Z., & Lee, J. (2023). Comprehensive Survey of ChIP-Seq Datasets to Identify Candidate Iron Homeostasis Genes Regulated by Chromatin Modifications. Methods in molecular biology (Clifton, N.J.), 2665, 95–111.

Su, J., Yao, Z., Wu, Y., Lee, J., & Jeong, J. (2022). Minireview: Chromatin-based regulation of iron homeostasis in plants. Frontiers in plant science, 13, 959840.

Lee, S., Lee, J., Ricachenevsky, F. K., Punshon, T., Tappero, R., Salt, D. E., & Guerinot, M. L. (2021). Redundant roles of four ZIP family members in zinc homeostasis and seed development in Arabidopsis thaliana. The Plant journal, 108(4), 1162–1173.

Park, E. Y., Tsuyuki, K. M., Hu, F., Lee, J., & Jeong, J. (2019). PRC2-Mediated H3K27me3 Contributes to Transcriptional Regulation of FIT-Dependent Iron Deficiency Response. Frontiers in plant science, 10, 627.

Schwartz, C. J., Lee, J., & Amasino, R. (2017). Variation in shade-induced flowering in Arabidopsis thaliana results from FLOWERING LOCUS T allelic variation. PloS one, 12(11), e0187768.

Woods, D. P., Ream, T. S., Bouché, F., Lee, J., Thrower, N., Wilkerson, C., & Amasino, R. M. (2017). Establishment of a vernalization requirement in Brachypodium distachyon requires REPRESSOR OF VERNALIZATION1. Proceedings of the National Academy of Sciences of the United States of America, 114(25), 6623–6628.

Lee, J., Yun, J. Y., Zhao, W., Shen, W. H., & Amasino, R. M. (2015). A methyltransferase required for proper timing of the vernalization response in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America, 112(7), 2269–2274.

Lee, J., & Amasino, R. M. (2013). Two FLX family members are non-redundantly required to establish the vernalization requirement in Arabidopsis. Nature communications, 4, 2186.

Lee, S., Jeong, H. J., Kim, S. A., Lee, J., Guerinot, M. L., & An, G. (2010). OsZIP5 is a plasma membrane zinc transporter in rice. Plant molecular biology, 73(4-5), 507–517.

Lee, S., Kim, S. A., Lee, J., Guerinot, M. L., & An, G. (2010). Zinc deficiency-inducible OsZIP8 encodes a plasma membrane-localized zinc transporter in rice. Molecules and cells, 29(6), 551–558.

Shim, D., Hwang, J. U., Lee, J., Lee, S., Choi, Y., An, G., Martinoia, E., & Lee, Y. (2009). Orthologs of the class A4 heat shock transcription factor HsfA4a confer cadmium tolerance in wheat and rice. The Plant cell, 21(12), 4031–4043.

Morrissey, J., Baxter, I. R., Lee, J., Li, L., Lahner, B., Grotz, N., Kaplan, J., Salt, D. E., & Guerinot, M. L. (2009). The ferroportin metal efflux proteins function in iron and cobalt homeostasis in Arabidopsis. The Plant cell, 21(10), 3326–3338.

Baxter, I., Muthukumar, B., Park, H. C., Buchner, P., Lahner, B., Danku, J., Zhao, K., Lee, J., Hawkesford, M. J., Guerinot, M. L., & Salt, D. E. (2008). Variation in molybdenum content across broadly distributed populations of Arabidopsis thaliana is controlled by a mitochondrial molybdenum transporter (MOT1). PLoS genetics, 4(2), e1000004.

Kim, Y. Y., Kim, D. Y., Shim, D., Song, W. Y., Lee, J., Schroeder, J. I., Kim, S., Moran, N., & Lee, Y. (2008). Expression of the novel wheat gene TM20 confers enhanced cadmium tolerance to bakers’ yeast. The Journal of biological chemistry, 283(23), 15893–15902.

Lee, J., Shim, D., Song, W. Y., Hwang, I., & Lee, Y. (2004). Arabidopsis metallothioneins 2a and 3 enhance resistance to cadmium when expressed in Vicia faba guard cells. Plant molecular biology, 54(6), 805–815.

Song, W. Y., Martinoia, E., Lee, J., Kim, D., Kim, D. Y., Vogt, E., Shim, D., Choi, K. S., Hwang, I., & Lee, Y. (2004). A novel family of cys-rich membrane proteins mediates cadmium resistance in Arabidopsis. Plant physiology, 135(2), 1027–1039.

Lee, J., Bae, H., Jeong, J., Lee, J. Y., Yang, Y. Y., Hwang, I., Martinoia, E., & Lee, Y. (2003). Functional expression of a bacterial heavy metal transporter in Arabidopsis enhances resistance to and decreases uptake of heavy metals. Plant physiology, 133(2), 589–596.