Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
2021 | From simple and specific zymographic detections to the annotation of a fungus Daldinia caldariorum D263 that encodes a wide range of highly bioactive cellulolytic enzymes | Lin, MC; Kuo, HW; Kao, MR; Lin, WD ; Li, CW; Hung, KS; Yang, SC; Yu, SM ; Ho, TD | Biotechnology for biofuels 14, 120 | | | |
2005 | Fusion of foreign protein genes to the occlusion body gene of the baculovirus to assist protein isolation and antibody production | Tzu-Ching Lee; Su-May Yu ; Yu-Chan Chao | Journal of Genetics and Molecular Biology 16(3), 138-150 | | | |
2016 | Genetic resources offer efficient tools for rice functional genomics research | Lo, S-F; Fan, M-J; Hsing, Y-I ; Chen, L-J; Chen, S; Wen, I-C; Liu, Y-L; Chen, K-T; Jiang, M-J; Lin, M-K; Rao, M-Y; Yu, L-C; Ho, T-H D ; Yu, S-M | Plant cell and environment 38(5), 998-1013 | | | |
2007 | Global functional analyses of rice promoters by genomics approaches | Yu, SM ; Ko, SS; Hong, CY; Sun, HJ; Hsing, YI; Tong, CG; Ho, TH | Plant molecular biology 65(4), 417-425 | | | |
2014 | Glycosylation Variants of a β-Glucosidase Secreted by a Taiwanese Fungus, Chaetomella raphigera, Exhibit Variant-Specific Catalytic and Biochemical Properties | Aki Yoneda; Hsion-Wen David Kuo; Mayumi Ishihara; Parastoo Azadi; Su-May Yu ; Tuan-hua David Ho | PLoS One 9(9), e106306 | | | |
2010 | High-level production of a thermoacidophilic β-glucosidase from Penicillium citrinum YS40-5 by solid-state fermentation with rice bran | Ng, I-S; Li, C-W; Chan, S-P; Chir, J-L; Chen, P-T; Tong, C-G; Yu, S-M ; Ho, T-HD | Bioresource Technology 101(4), 1310-1317 | | | |
1995 | Identification of a very early promoter of insect Hz-1 virus using a novel dual-expression shuttle vector | Lee, S. T.; Yu, S. M. ; Hsu, E. L.; Chao, Y. C. | Nucleic Acids Res 23, 4683-4689 | | | |
2014 | Increasing leaf vein density by mutagenesis: Laying the foundation for C4 rice | Feldman, AB; Murchie, EH; Leung, H; Baraoidan, M; Coe, R; Yu, S-M ; Lo, S-F; Quick, WP | PLOS ONE 9(4), e94947 | | | |
2006 | Interaction between rice MYBGA and the gibberellin response element controls tissue-specific sugar sensitivity of alpha-amylase genes | Chen, P. -W.; Chiang, C. -M.; Tseng, T. -H.; Yu, S. -M. | Plant Cell 18, 2326-2340 | | | |
1991 | Metabolic derepression of alpha-amylase gene expression in suspension-cultured cells of rice | Yu, S. M. ; Kuo, Y. H.; Sheu, G.; Sheu, Y. J.; Liu, L. F. | J Biol Chem 266, 21131-21137 | | | |
2003 | Molecular cloning and characterization of a novel starvation inducible MAP kinase gene in rice | Fu, S. F.; Lin, W. P.; Ho, S. L.; Chou, W. C.; Huang, D. D.; Yu, S. M. ; Huang, H. J. | Plant Physiol Bioch 41, 207-213 | | | |
2009 | Mutant Resources in Rice for Functional Genomics of the Grasses. | Krishnan, A; Guiderdoni, E; An, G; Hsing, Y-IC; Han, C-D; Lee, MC; Yu, S-M ; Upadhyaya, N; Ramachandran, S; Zhang, Q; Sundaresan, V; Hirochika, H; Leung, H | Plant Physiol 149, 165-170 | | | |
1994 | Novel gene expression system for plant cells based on induction of alpha-amylase promoter by carbohydrate starvation | Chan, M. T.; Chao, Y. C. ; Yu, S. M. | J Biol Chem 269, 17635-17641 | | | |
2005 | Production of human serum albumin by sugar starvation induced | Huang, L. F.; Liu, Y. K.; Lu, C. A.; Hsieh, S. L.; Yu, S. M. | Transgenic Res 14, 569-581 | | | |
2004 | Production of two highly active bacterial phytases with broad pH optima in germinated transgenic rice seeds | Hong, C. Y.; Cheng, K. J.; Tseng, T. H.; Wang, C. S.; Liu, L. F.; Yu, S. M. | Transgenic Res 13, 29-39 | | | |
1992 | Regulation of alpha-amylase-encoding gene expression in germinating seeds and cultured cells of rice | Yu, S. M. ; Tzou, W. S.; Lo, W. S.; Kuo, Y. H.; Lee, H. T.; Wu, R. | Gene 122, 247-253 | | | |
2002 | Rice α-Amylase Transcriptional Enhancers Direct Multiple Mode Regulation of Promoters in Transgenic Rice | Chen, P. W.; Lu, C. A.; Yu, T. S. ; Tseng, T. H.; Wang, C. S.; Yu, S. M. | Journal of Biological Chemistry 277(16), 13641-13649 | | | |
2012 | Serotonin accumulation in transgenic rice by over-expressing tryptophan decarboxlyase results in a dark brown phenotype and stunted growth. | Kanjanaphachoat, P; Wei, B-Y; Lo, S-F; Wang, I-W; Wang, C-S; Yu, S-M ; Yen, M-L; Chiu, S-H; Lai, C-C; Chen, L-J | PLANT MOLECULAR BIOLOGY 78, 525-543 | | | |
2004 | Signal Peptide-Dependent Targeting of a Rice α-Amylase and Cargo Proteins to Plastids and Extracellular Compartments of Plant Cells | Chen, M. H.; Huang, L. F.; Li, H. M. ; Chen, Y. R.; Yu, S. M. | Plant Physiol 135(3), 1367-1377 | | | |
- | SKIN, a Novel Negative Regulator of the Global Carbon/Energy Sensor SnRK1, Modulates the Sugar Starvation Signaling between Source and Sink Tissues in Rice | Lin, C-R; Chen, J-L; Yu, S-M | | | | |