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Guang-Yuh  Jauh

Guang-Yuh Jauh


Ph.D. in Department of Botany and Plant Sciences, University of California-Riverside, CA, USA, 1997

Current position

Associate Research Fellow, Institute of Plant and Microbial Biology, Academia Sinica, Taipei, Taiwan, ROC
Web: http://ipmb.sinica.edu.tw/faculty_show_e.php?sid=39&catid=3

Publications (since 2005)

  1. Hsu, Y. W., Wang, H. J., Hsieh, M. H., Hsieh, H. L. and Jauh, G. Y.* (2014). Arabidopsis mTERF15 is required for mitochondrial nad2 intron 3 splicing and functional complex I activity. PLoS One 9(11): e112360.
  2. Pasaribu, B., Lin, I. P., Tzen, J. T., Jauh, G. Y., Fan, T. Y., Ju, Y. M., Cheng, J. O., Chen, C. S. and Jiang, P. L. (2014). SLDP: a novel protein related to caleosin is associated with the endosymbiotic symbiodinium lipid droplets from Euphyllia glabrescens. Mar Biotechnol (NY) 16(5): 560-571.
  3. Lin, S. Y., Chen, P. W., Chuang, M. H., Juntawong, P., Bailey-Serres, J. and Jauh, G. Y.* (2014). Profiling of translatomes of in vivo-grown pollen tubes reveals genes with roles in micropylar guidance during pollination in Arabidopsis. Plant Cell 26(2): 602-618.
  4. Hsu, Y. F., Chen, Y. C., Hsiao, Y. C., Wang, B. J., Lin, S. Y., Cheng, W. H., Jauh, G. Y., Harada, J. J. and Wang, C. S.* (2014). AtRH57, a DEAD-box RNA helicase, is involved in feedback inhibition of glucose-mediated abscisic acid accumulation during seedling development and additively affects pre-ribosomal RNA processing with high glucose. Plant J 77(1): 119-135.
  5. Bolanos-Villegas, P., Yang, X., Wang, H. J., Juan, C. T., Chuang, M. H., Makaroff, C. A. and Jauh, G. Y.* (2013). Arabidopsis CHROMOSOME TRANSMISSION FIDELITY 7 (AtCTF7/ECO1) is required for DNA repair, mitosis and meiosis. Plant J 75(6): 927-940.
  6. Chanroj, S., Padmanaban, S., Czerny, D. D., Jauh, G. Y. and Sze, H.* (2013). K+ transporter AtCHX17 with its hydrophilic C tail localizes to membranes of the secretory/endocytic system: role in reproduction and seed set. Mol Plant 6(4): 1226-1246.
  7. Thangasamy, S., Chen, P. W., Lai, M. H., Chen, J. and Jauh, G. Y.* (2012). Rice LGD1 containing RNA binding activity affects growth and development through alternative promoters. Plant J 71(2): 288-302.
  8. Lo, Y. S., Cheng, N., Hsiao, L. J., Annamalai, A., Jauh, G. Y., Wen, T. N., Dai, H.* and Chiang, K. S. (2011). Actin in mung bean mitochondria and implications for its function. Plant Cell 23(10): 3727-3744.
  9. Bolaños-Villegas, P., Thangasamy, S. and Jauh, G. Y.* (2011). Rise of the Clones: Apomixis in Plant Breeding. In: Tellstone, J. J. (eds). Flowering Plants: Classification, Characteristics and Breeding. Nova Science Publishers.
  10. Thangasamy, S., Bolaños-Villegas, P. and Jauh, G. Y.* (2011). Branching Pattern: An Inevitable Trait for Rice Production. In: Liu, Y. and Froyen, L. (eds). Rice: Production, Consumption and Health Benefits. Nova Science Publishers.
  11. Huang, J. C., Chang, L. C., Wang, M. L., Guo, C. L., Chung, M. C. and Jauh, G. Y.* (2011). Identification and exploration of pollen tube small proteins encoded by pollination-induced transcripts. Plant Cell Physiol 52(9): 1546-1559.
  12. Thangasamy, S., Guo, C. L., Chuang, M. H., Lai, M. H., Chen, J. and Jauh, G. Y.* (2011). Rice SIZ1, a SUMO E3 ligase, controls spikelet fertility through regulation of anther dehiscence. New Phytol 189(3): 869-882.
  13. Bolaños-Villegas, P., WannNeng, J. and GuangYuh, J.* (2010). Pollen development: a play with many actors. Current Topics in Plant Biology 11: 89-102. (Invited review article)
  14. Wang, H. J., Huang, J. C. and Jauh, G. Y.* (2010). Pollen germination and tube growth. Adv Bot Res 54: 1-52. (Invited review article)
  15. Chang, L. C., Guo, C. L., Lin, Y. S., Fu, H., Wang, C. S. and Jauh, G. Y.* (2009). Pollen-specific SKP1-like proteins are components of functional scf complexes and essential for lily pollen tube elongation. Plant Cell Physiol 50(8): 1558-1572.
  16. Yang, C. Y., Wu, C. H., Jauh, G. Y., Huang, J. C., Lin, C. C. and Wang, C. S.* (2008). The LLA23 protein translocates into nuclei shortly before desiccation in developing pollen grains and regulates gene expression in Arabidopsis. Protoplasma 233(3-4): 241-254.
  17. Jiang, P. L., Jauh, G. Y., Wang, C. S. and Tzen, J. T.* (2008). A unique caleosin in oil bodies of lily pollen. Plant Cell Physiol 49(9): 1390-1395.
  18. Wang, H. J., Wan, A. R. and Jauh, G. Y.* (2008). An actin-binding protein, LlLIM1, mediates calcium and hydrogen regulation of actin dynamics in pollen tubes. Plant Physiol 147(4): 1619-1636.
  19. Jiang, P. L., Wang, C. S., Hsu, C. M., Jauh, G. Y.* and Tzen, J. T.* (2007). Stable oil bodies sheltered by a unique oleosin in lily pollen. Plant Cell Physiol 48(6): 812-821.
  20. Wang, H. J., Wan, A. R., Hsu, C. M., Lee, K. W., Yu, S. M. and Jauh, G. Y.* (2007). Transcriptomic adaptations in rice suspension cells under sucrose starvation. Plant Mol Biol 63(4): 441-463.
  21. Jou, Y., Chiang, C. P., Jauh, G. Y. and Yen, H. E. (2006). Functional characterization of ice plant SKD1, an AAA-type ATPase associated with the endoplasmic reticulum-Golgi network, and its role in adaptation to salt stress. Plant Physiol 141(1): 135-146.
  22. Yang, C. Y., Chen, Y. C., Jauh, G. Y. and Wang, C. S. (2005). A Lily ASR protein involves abscisic acid signaling and confers drought and salt resistance in Arabidopsis. Plant Physiol 139(2): 836-846.
  23. Wang, H. J., Hsu, C. M., Jauh, G. Y.* and Wang, C. S.* (2005). A lily pollen ASR protein localizes to both cytoplasm and nuclei requiring a nuclear localization signal. Physiol Plantarum 123(3): 314-320.
  24. Wang, M. L., Hsu, C. M., Chang, L. C., Wang, C. S., Su, T. H., Huang, Y. J., Jiang, L. and Jauh, G. Y.* (2004). Gene expression profiles of cold-stored and fresh pollen to investigate pollen germination and growth. Plant Cell Physiol 45(10): 1519-1528.
    * Corresponding author
Protocols by Guang-Yuh Jauh
  1. Northwestern Blot of Protein-RNA Interaction from Young Rice Panicles
  2. Protocol for the Preparation of Arabidopsis Meiotic Chromosome Spreads and Fluorescent in situ Hybridization
  3. Polysomal-mRNA Extraction from Arabidopsis by Sucrose-gradient Separation