Academia Sinica Life Science Library -- Research Findings

Research Findings

Inst. of Plant and Microbial Biology - 鄭萬興 Cheng, Wan-Hsing

Journal 24

Ya-Huei Chen, (Wan-Hsing Cheng*). Hexosamine biosynthesis and related pathways, protein N-glycosylation and O-GlcNAcylation: Their interconnection and role in plants. FRONTIERS IN PLANT SCIENCE. , 2024-03-06. [JCR]　[WOS]
Tu-Trinh Thi Truong, Chi-Chou Chiu, Pei-Yu Su, Jing-Yu Chen, Tri-Phuong Nguyen, Masaru Ohme-Takagi, Ruey-Hua Lee, (Wan-Hsing Cheng) & Hao-Jen Huang*. Signaling pathways involved in microbial indoor air pollutant 3‑methyl‑1‑butanol in the induction of stomatal closure in Arabidopsis. Environmental Science and Pollution Research. 31, 7556-7568, 2024-01-02. [JCR]　[WOS]
Ya-Huei Chen, Hwei-Ling Shen, Shu-Jen Chou, Yasushi Sato, (Wan-Hsing Cheng*). Interference of Arabidopsis N-acetylglucosamine-1-P uridylyltransferase expression impairs protein N-glycosylation and induces ABA-mediated salt sensitivity during seed germination and early seedling development. FRONTIERS IN PLANT SCIENCE. 13, 903272, 2022-06-07. [JCR]　[WOS]
Wei-Chi Lin, Ya-Huei Chen, Shin-Yuan Gu, Hwei-Ling Shen, Kai-Chau Huang, Wen-Dar Lin, Men-Chi Chang, Ing-Feng Chang, Chwan-Yang Hong and (Wan-Hsing Cheng*). CFM6 is an essential CRM protein required for the splicing of nad5 transcript in Arabidopsis mitochondria. PLANT AND CELL PHYSIOLOGY. 63(2), 217-233, 2022-02. [JCR]　[WOS]
Pei-jung Hsu, Mei-Chen Tan, Hwei-Ling Shen, Ya-Huei Chen, Ya-Ying Wang, San-Gwang Hwang, Ming-Hau Chiang, Quang-Vuong Lea, Wen-Shuo Kuo, Ying-Chan Chou, Shih-Yun Lin, Guang-Yuh Jauh, (Wan-Hsing Cheng*). The nucleolar protein SAHY1 is involved in pre-rRNA processing and normal plant growth. Plant Physiology. 185(3), 1039-1058, 2021. [JCR]　[WOS]
Chen HC, (Cheng WH), Hong CY, Chang YS, Chang MC*. The transcription factor OsbHLH035 mediates seed germination and enables seedling recovery from salt stress through ABA-dependent and ABA-independent pathways, respectively. Rice. 11:50, 2018-09-10. [JCR]　[WOS]
Huang KC, Lin WC and (Cheng WH*). Salt hypersensitive mutant 9, a nucleolar APUM23 protein, is essential for salt sensitivity in association with the ABA signaling pathway in Arabidopsis. BMC Plant Biology. 18, 40, 2018-03. [JCR]　[WOS]
Chen HC, Hsieh-Feng V, Liao PC, (Cheng WH), Liu LY, Yang YW, Lai MH, Chang MC. The function of OsbHLH068 is partially redundant with its homolog, AtbHLH112, in the regulation of the salt stress response but has opposite functions to control flowering in Arabidopsis. Plant Molecular Biology. 94(4-5), 531-548, 2017-06. [JCR]　[WOS]
Ming-Hau Chiang, Hwei-Ling Shen, Wan-Hsing Cheng*. Genetic analyses of the interaction between abscisic acid and gibberellins in the control of leaf development in Arabidopsis thaliana. PLANT SCIENCE. 236, 260-271, 2015-04. [JCR]　[WOS]
Ya-Huei Chen, Hwei-Ling Shen, Pei-Jung Hsu, San-Gwang Hwang and Wan-Hsing Cheng. N-acetylglucosamine-1-P uridylyltransferease 1 and 2 are required for gametogenesis and embryo development in Arabidopsis thaliana. PLANT AND CELL PHYSIOLOGY. 55(11), 1977-1993, 2014-11. [JCR]　[WOS]
Hsu, Yi-Feng; Chen, Yun-Chu; Hsiao, Yu-Chun; Wang, Bing-Jyun; Lin, Shih-yun; Cheng, Wan-Hsing; Jauh, Guang-Yuh; Harada, John; Wang, Co-Shine. 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 JOURNAL. 77(1), 119-135, 2014-01. [JCR]　[WOS]
Hwang SG, Lin NC, Hsiao YY, Kuo CH, Chang PF, Deng WL, Chiang MH, Shen HL, Chen CY, Cheng WH. The Arabidopsis short-chain dehydrogenase/reductase 3, an abscisic acid deficient 2 homolog, is involved in plant defense responses but not in ABA biosynthesis. Plant physiology and biochemistry : PPB / Societe francaise de physiologie vegetale. 51, 63-73, 2012. [JCR]　[WOS]
Hung-Chi Chen, San-Gwang Hwang, Shiau-Ming Chen, Chou-Tou Shii, Wan-Hsing Cheng. Abscisic Acid-Mediated Heterophylly Is Regulated by Differential Expression of 9-cis-Epoxycarotenoid Dioxygenase 3 in Lilies. PLANT AND CELL PHYSIOLOGY. 52(10), 1806-1821, 2011. [JCR]　[WOS]
San-Gwang Hwang1, Wen-Yu Huang1, Yu-Chun Chu1, Wan-Hsing Cheng1,*. Ectopic expression of rice OsNCED1 in Arabidopsis increases ABA level and alters leaf morphology . Plant Science. 178, 12-22, 2010. [JCR]　[WOS]
Wan-Hsing Cheng1*, Ming-Hua Chiang1, San-Gwang Hwang1, Pei-Chi Lin1. Antagonism between Abscisic Acid and Ethylene in Arabidopsis Acts in Parallel with the Reciprocal Regulation of their Metabolism and Signaling Pathways. Plant Molecular Biology. 71, 61-80, 2009-06. [JCR]　[WOS]
P. C. Lin, S. G. Hwang and W. H. Cheng. Ectopic Expression of ABSCISIC ACID 2/GLUCOSE INSENSITIVE 1 in Arabidopsis Promotes Seed Dormancy and Stress Tolerance1,[C],[OA]. Plant Physiology. 143, 745-758, 2007. [JCR]　[WOS]
B. Moore, L. Zhou., F. Rolland, Q. Hall, W. H. Cheng, Y. X. Liu, I. Hwang, T. Jones and J. Sheen. Role of the Arabidopsis glucose sensor HXK1 in nutrient, light, and hormonal signaling. Science. 300, 332-336, 2003. [JCR]　[WOS]
W. H. Cheng, A. Endo, L. Zhou, J. Penney, H. C. Chen, A. Arroyo, P. Leon, E. Nambara, T. Asami, M. Seo, T. Koshiba and J. Sheen. A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functions. Plant Cell. 14, 2723-2743, 2002. [JCR]　[WOS]
W. H. Cheng, P. S. Chourey. Genetic evidence that invertase-mediated release of hexoses is critical for appropriate carbon partitioning and normal seed development in maize. Theoretical and Applied Genetics. 98, 485-495, 1999. [JCR]　[WOS]
E. W. Taliercio, J. Y. Kim, A. Mahe, S. Shanker, J. Choi, W. H. Cheng, J. L. Prioul and P. S. Chourey. Isolation , characterization and expression analyses of two cell wall invertase genes in maize. Journal of Plant Physiology. 155, 197-204, 1999. [JCR]　[WOS]
W. H. Cheng, E. W. Taliercio and P. S. Chourey. Sugar modulates an unusual mode of control of the cell-wall invertase gene (Incw1) through its 3’ untranslated region in a cell suspension culture of maize. Proceedings of the National Academy of Sciences of the United States of America. 96, 10512-10517, 1999. [JCR]　[WOS]
W. H. Cheng, K. H. Im and P. S. Chourey. Sucrose phosphate synthase expression at the cell and tissue level is coordinated with sucrose sink-to-source transition in maize leaf. Plant Physiology. 111, 1021-1029, 1996. [JCR]　[WOS]
W. H. Cheng, E. W. Taliercio and P. S. Chourey. The Miniature1 seed locus of maize encodes a cell wall invertase required for normal development of endosperm and maternal cells in the pedicel. Plant Cell. 8, 971-983, 1996. [JCR]　[WOS]
P. S. Chourey, W. H. Cheng, E. W. Taliercio and K. H. Im. Genetic aspects of sucrose-metabolizing enzymes in developing maize seed. In: Carbon Partitioning and Source-Sink Interaction in Plants. 239-245, 1995.　[WOS]

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