| Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
| 2013 | Homeostasis Between Zn and Fe: a Lesson Learned from the Zn Hyperaccumulator Arabidopsis halleri | Yeh, Kuo-Chen | | | | |
| 2020 | How to start your monocot CRISPR/Cas project: plasmid design, efficiency detection, and offspring analysis | Yue, JJ; Hong, CY; Wei, PC; Tsai, YC; Lin, CS | RICE 13, 9 | | | |
| 2006 | Hsa32, a phosphosulfolactate synthase-related heat-shock protein, is not involved in sulfolipid biosynthesis in Arabidopsis | Liu, N. -Y.; Hsieh, W. -J.; Liu, H. -C.; Charng, Y. -Y. | BOTANICAL STUDIES 47(4), 389-395 | | | |
| 2006 | Hybrid glucanases with multiple catalytic functions created by protein domain fusion | Lin, Y. -S.; Shyur, L. -F. | | | | |
| 2016 | Hybrid-Cut: An Improved Sectioning Method for Recalcitrant Plant Tissue Samples. | Chen, TK; Yang, HT; Fang, SC ; Lien, YC; Yang, TT; Ko, SS | JoVE-Journal of visualized experiments (117), 54754 | | | |
| 2000 | Hydrophobic clustering in acid-denatured IL-2 and fluorescence of a Trp NH-pi H-bonds | Nanda, V; Liang, SM ; Brand, L | BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS 279(3): 770-778 | | | |
| 2022 | Hypoglycemic peptide-enriched hydrolysates of Corbicula fluminea and Chlorella sorokiniana possess synergistic hypoglycemic activity through inhibiting a-glucosidase and dipeptidyl peptidase-4 activity | Huang, TH; Liu, PY; Lin, YL ; Tsai, JS | JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE 102(2), 716-723 | | | |
| 2023 | Hypoxia response protein HRM1 modulates the activity of mitochondrial electron transport chain in Arabidopsis under hypoxic stress | Tsai, Kuen-Jin; Suen, Der-Fen ; Shih, Ming-Che | New Phytologist 239(4), 1315-1331 | | | |
| 2013 | Hypoxia tolerance, systemic signaling and ethylene | Hsu, F. -C.; Chou, M. -Y.; Peng, H. -P.; Chou, S. -J.; Shih, M. -C. | | | | |
| 2021 | ICTV Virus Taxonomy Profile: Nanoviridae | Thomas John E.; Gronenborn Bruno; Harding Robert M.; Mandal Bikash; Grigoras Ioana; Randles John W.; Sano Yoshitaka; Timchenko Tania; Vetten H. Josef; Yeh Hsin-Hung ; Ziebell Heiko | Journal of General Virology 102(3), 001544 | | | |
| 2013 | Identificatio of 16 Flower Development Related MADS Genes of Bambusa edulis | Lin, Choun-Sea | | | | |
| 2009 | Identification and characterization of a new phosphate starvation-induced mircoRNA gene family | Chiang, S. -F.; Li, S. -I; Li, W. -Y.; Chen, J. -W.; Shih, A. C. -C.; Chiou, T. -J. | | | | |
| 1994 | Identification of a light-responsive region of the nuclear gene encoding the B subunit of chloroplast glyceraldehyde 3-phosphate dehydrogenase from Arabidopsis thaliana. | Kwon, HB; Park, SC; Peng, HP; Goodman, HM; Dewdney, J; Shih, MC | Plant physiology 105(1), 357-367 | | | |
| 2012 | Identification of chemicals altering the Fe-deficiency response | Chien, W. -F.; Tsednee, M.; Yeh, K. -C. | | | | |
| 2016 | Identification of chlorophyll dephytylase involved in chlorophyll turnover in Arabidopsis | Yao-Pin Lin; Meng-Chen Wu; Yee-yung Charng | PLANT CELL 28:2974-2990 | | | |
| 2000 | Identification of differential gene expression by high throughput analysis | To, K. Y. | Combinatorial Chemistry & High Throughput Screening 3, 235-241 | | | |
| 2012 | Identification of Downstream Components of PHO2 by Quantitative Membrane Proteomics in Arabidopsis Roots | Huang, Teng-Kuei; Han, Chia-Li; Lin, Shu-I; Chen, Yu-Ju; Tsai, Yi-Chuan; Chen, June-Wei; Lin, Wei-Yi; Chen, Pei-Mien; Liu, Tzu-Yin; Chen, Ying-Shin; Chiou, Tzyy-Jen | | | | |
| 2010 | Identification of flooding-response genes in eggplant roots by suppression subtractive hybridization | Lin, K. -H.; Lin, C. -H.; Chan, M. -T. ; Lo, H. -F. | Plant Molecular Biology Reporter 28, 212–221 | | | |
| 2009 | Identification of gene transcript accumulation repressed in three albino mutants of Bambusa edulis Munro. | Wu, FH; Liu, NT; Chou, SJ; Shen, SC; Chang, B CH; Pan, CY; Lin, CS | JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE 89, 2308-2316 | | | |
| 2003 | Identification of immunomodulatory phytocomponds via screening platforms composed of T cells and autoimmune diseases | Chang, S. L.; Chang, C. L. T.; Chiang, Y. M.; Shyur, L. F.; Yang, W. C. | | | | |
