Biography

Dr. Zonglie Hong

Department of Plant, Soil and Entomological Sciences

Program of Microbiology, Molecular Biology and Biochemistry

University of Idaho, USA

Associate Professor


Email: zhong@uidaho.edu

 

Qualifications

Ph.D., Biochemistry, University of Novi Sad, Yugoslavia

M.Sc., Biochemistry, University of Novi Sad, Yugoslavia

B.Sc., Agronomy, Fujian Agricultural University, China

 

Publications (Selected)

  1. Xie B, Hong Z (2011) Unplugging the callose plug from sieve pores. Plant Signaling & Behavior, 6: 491-493. 
  2. Xie B, Wang X, Zhu M, Zhang Z, Hong Z (2011)CalS7encodes a callose synthase responsible for callose deposition in the phloem. Plant J 65: 1–14. 
  3. Kang H, Zhu H, Chu X, Yang Z, Yuan S, Yu D, Wang C, Hong Z, Zhang Z (2011) A novel interaction between CCaMK and a protein containing the Scythe_N ubiquitin-like domain inLotusjaponicus. Plant Physiol 155: 1312-1324. 
  4. Guseman JM, Lee JS, Bogenschutz NL, Peterson KM, Virata RE, Xie B, Kanaoka MM, Hong Z, Torii KU (2010) Dysregulation of cell-to-cell connectivity and stomatal patterning by loss-of-function mutation inArabidopsisCHORUS (GLUCAN SYNTHASE-LIKE 8). Development 137: 1731-1741 
  5. Xie B, Wang X, Hong Z (2010)Precocious pollen germination inArabidopsislines with altered callose deposition during microsporogenesis. Planta231: 809-823 
  6. Ma L, Xie B, Hong Z,VermaDPS, Zhang Z (2008)A novel RNA-binding protein associated with cell plate formation. Plant Physiol. 148: 223-234 
  7. Zhu H, Chen T, Zhu M, Fang Q, Kang H, Hong Z, Zhang Z (2008) A novel ARID DNA-binding protein interacts with SymRK and is expressed during early nodule development inLotus japonicus.Plant Physiol. 148: 337-347 
  8. Dong X, Hong Z, Chatterjee J, Kim S, Verma DPS (2008). Expression of callose synthase genes and its connection with Npr1 signaling pathway during pathogen infection. Planta 229: 87-98 
  9. Ma L, Hong Z, Zhang Z (2007)Perinuclear and nuclear envelope localizations ofArabidopsisRan proteins. Plant Cell Rep. 26: 1373-1382 
  10. Verma DPS, Hong Z (2005). The ins and outs in membrane dynamics: Tubulation and vesiculation.Trends Plant Sci. 10: 159-165. 
  11. Dong X, Hong Z, Sivaramakrishnan M, Mahfouz M, Verma DPS (2005) Callose synthase (CalS5) is required for exine formation during microgametogenesis and pollen viability inArabidopsis.Plant J. 42: 315-328. 
  12. Hong Z, Bednarek S, Blumwald E, Hwang I, Jurgens G, Menzel D, Osteryoung K, Raikhel N, Shinozaki K, Tsutsumi N, Verma DPS (2003a).A unified nomenclature forArabidopsisdynamin-related large GTPases based on homology and possible functions. Plant Mol. Biol. 53: 261-265. 
  13. Hong Z, Geisler-Lee J, Zhang Z, Verma DPS (2003b). Phragmoplastin dynamics: multiple forms, microtubule association and their roles in cell plate formation in plants.Plant Mol. Biol. 53: 297-312. (including the Cover Picture of the Journal) 
  14. Geisler-Lee, J., Hong, Z., and Verma, D.P.S. (2002) Overexpression of the cell plate-associated dynamin-like GTPase, phragmoplastin, results in the accumulation of callose at the cell plate and arrest of plant growth.Plant Sci. 163: 33-42. 
  15. Verma DPS, Hong Z (2001) Plant callose synthase complexes.Plant Mol. Biol. 47: 693-701. 
  16. Hong Z, Delauney AJ and Verma DPS (2001a) A cell plate-specific callose synthase and its interaction with phragmoplastin and UDP-glucose transferase. Plant Cell 13: 755-768 
  17. Hong Z, Zhang Z, Olson J. and Verma DPS (2001b) A novel UDP glucose transferase interacts with callose synthase and phragmoplastin at the forming cell plate. Plant Cell 13, 769-780 
  18. Zhang Z, Hong Z and Verma DPS (2000) Phragmoplastin polymerizes into spiral coiled structures via two self-assembly domains. J Biol Chem 275: 8779-8784 
  19. Hong Z, Lakkineni K, Zhang Z and Verma DPS (2000) Removal of feedback inhibition ofD1-pyrroline-5-carboxylate synthetase results in increased proline accumulation and protection of plants from osmotic stress. Plant Physiol. 122: 1129-1136. 
  20. Verma DPS and Hong Z (1996) Biogenesis of peribacteroid membrane in root nodules.Trends in Microbiology 4(9): 364-368. 
  21. Kavi Kishor PB, Hong Z, Miao G-H and Verma DPS (1995)Overexpression ofD1-pyrroline-5-carboxylate synthetase increases proline production and confers osmotolerance in transgenic plants.Plant Physiol. 108: 1387-1394. 
  22. Hong Z and Verma DPS (1994)A new phosphatidylinositol 3-kinase is induced during soybean nodule organogenesis and is associated with membrane proliferation.Proc. Natl. Acad. Sci. USA 91: 9617-9621. 
  23. Verma DPS, Cheon C-I and Hong Z (1994) Small GTP-binding proteins and membrane biogenesis in plants.Plant Physiol. 106: 1-6. 
  24. Cheon C-I, Hong Z and Verma DPS (1994) Nodulin-24 follows a novel pathway for integration into the peribacteroid membrane in soybean root nodules.J. Biol. Chem.269: 6598-6602. 
  25. Miao G-H*, Hong Z* and Verma DPS (1993) Two functional soybean genes encoding p34cdc2 protein kinases are regulated by different plant developmental pathways.Proc. Natl. Acad. Sci. USA90: 943-947. (*Authors contributed equally to this work). 
  26. Hong Z, Miao G-H and Verma DPS (1993) A p34cdc2 protein kinase homolog from mothbean (Vignaaconitifolia).Plant Physiol. 101:1399-1400. 
  27. Miao G-H, Hong Z and Verma DPS (1992) Topology and phosphorylation of soybean nodulin-26, an intrinsic protein of the peribacteroid membrane.J. Cell. Biol. 118:481-490. 
  28. Szoke A, Miao G-H, Hong Z and Verma DPS (1992) Subcellular location ofD1-pyrroline-5-carboxylate reductase in root/nodule and leaf of soybean.Plant Physiol. 99:1642-1649. 
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