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JC Jang Lab

College of Food, Agricultural, and Environmental Sciences

JC Jang Lab
https://jcjanglab.osu.edu

Publications

  1. Jang, G-J., Jiang, S., Jang, J-C., and Wu, S-H. (2020). Dynamics and functions of stress granules and processing bodies in plants. Plants 9:1122. DOI:10.3390/plants9091122
  2. Yu, X., Li, B., Jang, G-J., Jiang, S., Jang, J-C., Wu, S-H., Shan, L., and He, P. (2019). Orchestration of processing body dynamics and mRNA decay in Arabidopsis immunity. Cell Reports 28: 2194-2205. 
  3. Chu, Y.H., Jang, J.-C., Huang, Z. Van der Knaap, E. (2019). The control of tomato locule number and fruit weight by natural mutant alleles of lc and fas in wild type tomato. Plant Direct DOI:10.1002/pld3.142
  4. Li, B., Wang, Y., Zhang, Y., Tian, W., Chong, K., Jang, J-C., Wang, L. (2019). PRR5, 7, and 9 Positively Modulate TOR Signaling-Mediated Root Cell Proliferation by Repressing TANDEM ZINC FINGER 1 in ArabidopsisNucleic Acids Research doi: 10.1093/nar/gkz191
  5. Pi, B., He, X., Ruan, Y., Jang, J-C., and Huang, Y. (2018). Genome-wide analysis and stress responsive expression of CCCH zinc finger family genes in Brassica rapa. BMC Plant Biology 18: 373.
  6. Jang, J-C. (2016). Arginine-rich motif-tandem CCCH zinc finger proteins in plant stress responses and post-transcriptional regulation of gene expression. Plant Science 252:118-124 (Review).
  7. Bogamuwa, S. and Jang, J-C. (2016) Plant Tandem CCCH Zinc Finger Proteins Interact with ABA, Drought, and Stress Response Regulators in Processing-Bodies and Stress Granules. PLoS ONE 11(3): e0151574. doi:10.1371/journal.pone.0151574.
  8. Jie Qua, b, Shin Gene Kang, Cyrus Hah, Jyan-Chyun Jang (2016). Molecular and Cellular Characterization of GA-Stimulated Transcripts GASA4 and GASA6 in Arabidopsis thalianaPlant Science246: 1-10.
  9. Bogamuwa, S. and Jang, J-C (2014). Tandem CCCH zinc finger proteins in plant growth, development, and stress response. Plant and Cell Physiology 55: 1367-1375 (Invited Review). 
  10. Qu, J., Kang, S. G., Wang, W., Musier-Forsyth, K., and Jang, J-C. (2014). Arabidopsis thaliana tandem zinc finger 1 (AtTZF1) in RNA binding and decay. Plant Journal 78: 452-467. 
  11. Bogamuwa, S. and Jang, JC (2013). The Arabidopsis tandem CCCH zinc finger proteins AtTZF4, 5, and 6 are involved in light-, ABA- and GA-mediated regulation of seed germination. Plant Cell Environ 36: 1507-1519.
  12. Pomeranz, M. C., Finer, J. J., and Jang, J.-C. (2011). Putative molecular mechanisms underlying tandem CCCH zinc finger proteins mediated plant growth, stress, and gene expression responses. Plant Signaling & Behavior 6: 644-648 (Mini-Review).
  13. Pomeranz, M. C., Zhang, L., Finer, J. J., and Jang, J.-C. (2011). Can AtTZF1 act as a transcriptional activator or repressor in plants? Plant Signaling & Behavior 6: 719-722.
  14. Pei-Chi Lin, Marcelo C. Pomeranz, Yusuke Jikumaru, Shin Gene Kang, Cyrus Hah, Shozo Fujioka, Yuji Kamiya and Jyan-Chyun Jang (2011). The Arabidopsis tandem zinc finger protein AtTZF1 can affect ABA- and GA-mediated growth, stress and gene expression responses. Plant Journal 65: 253-268.
  15. Kang, S.G., Price, J., Lin, P.C., Hong, J.C. and Jang, J.C. (2010). The Arabidopsis bZIP1 transcription factor is involved in sugar signaling, protein networking, and DNA binding. Molecular Plant 3: 1-13.
  16. Pomeranz, M.C., Hah, C., Lin, P.C., Kang, S.G., Finer, J.J., Blackshear, P.J., and Jang, J.C. (2010). TheArabidopsis tandem zinc finger protein AtTZF1 traffics between the nucleus and cytoplasmic foci and binds both DNA and RNA. Plant Physiology 152, 151-165.
  17. Pomeranz, M.C., Lin, P.C., Finer, J.J., and Jang, J.C. (2010). AtTZF gene family localizes to cytoplasmic foci. Plant Signaling & Behavior 5: 1-3.
  18. Shao M, Zheng H, Hu Y, Liu D, Jang JC, Ma H, Huang H (2004). The GAOLAOZHUANGREN1 gene encodes a putative glycosyltransferase that is critical for normal development and carbohydrate metabolism. Plant Cell Physiol 45: 1453-1460.
  19. John Price, Ashverya Laxmi, Steven K. St. Martin, and Jyan-Chyun Jang (2004). Global Transcription Profiling Reveals Multiple Sugar Signaling Mechanisms in ArabidopsisPlant Cell 16: 2128-2150.
  20. Price J, Li TC, Kang SG, Na JK, Jang JC. (2003). Mechanisms of glucose signaling during germination ofArabidopsisPlant Physiol 132: 1424-1438.
  21. He JX, Fujioka S, Li TC, Kang SG, Seto H, Takatsuto S, Yoshida S, Jang JC. (2003). Sterols regulate development and gene expression in ArabidopsisPlant Physiol 131: 1258-1269.
  22. Xiao W.-Y. and Jang,J.-C  (2000). F-box proteins in Arabidopsis thalianaTrends Plant Sci 5: 455-458.
  23. Xiao W.-Y., J. Sheen, and Jang, J.-C  (2000). The role of hexokinase in plant sugar signal transduction and growth and development. Plant Molecular Biology 44: 451-461.
  24. Jang, J.-C., S. Fujioka, M. Tasaka, H. Seto, S. Takatsuto, A. Ishii, M. Aida,S. Yoshida, and J. Sheen  (2000). A critical role of sterols in embryonic patterning and meristem programming revealed by the fackel mutants ofArabidopsis thalianaGenes and Development 14: 1485-1497.
  25. Sheen, J., Zhou, L., and J.-C. Jang (1999). Sugars as signalling molecules. Curr Opi Plant Biol 2: 410-418.
  26. Zhou, L., Jang, J.-C., Jones, T. and Sheen, J. (1998). Glucose and ethylene signal transduction crosstalk revealed by an Arabidopsis glucose-insensitive mutant. Proc Natl Acad Sci USA 95: 10294-10299.
  27. Jang, J.-C. and Sheen, J. (1997). Sugar sensing in higher plants. Trends Plant Sci 2: 208-214.
  28. Jang, J.-C., Leoacuten, P., Zhou, L. and Sheen, J. (1997). Hexokinase as a sugar sensor in higher plants. Plant Cell 9: 5-19.