公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
---|---|---|---|---|---|---|
2004 | A novel ninein-interaction protein, CGI-99, blocks ninein phosphorylation by GSK3β and is highly expressed in brain tumors | Howng S.-L.; Hsu H.-C.; Cheng T.-S.; Lee Y.-L.; Chang L.-K.; Lu P.-J.; Hong Y.-R.; LI-KWAN CHANG | FEBS Letters | 38 | 38 | |
2004 | Post-translational Modification of Rta of Epstein-Barr Virus by SUMO-1 | Chang LK; Lee YH; Cheng TS; Hong YR; Liu ST; Wang J.J.; Wang W.-H.; Kuo C.-W.; Li S.S.-L.; LI-KWAN CHANG | 104th General Meeting of American Society for Microbiology, May 23-27 | 85 | 80 | |
2015 | The promoter of the white spot syndrome virus immediate-early gene WSSV108 is activated by the cellular KLF transcription factor | W. J. Liu; C. F. Lo; G. H. Kou; J. H. Leu; Y. J. Lai; L. K. Chang ; Y. S. Chang | Developmental and Comparative Immunology | 8 | 8 | |
2015 | RanBPM regulates Zta-mediated transcriptional activity in Epstein–Barr virus | Y. C. Yang; T. H. Feng; T. Y. Chen; H. H. Huang; C. C. Hung; S. T. Liu; L. K. Chang | Journal of General Virology | 10 | 11 | |
2016 | Regulation of the Abundance of Kaposi’s Sarcoma-Associated Herpesvirus ORF50 Protein by Oncoprotein MDM2 | T. H. Chang; S. S. Wang; L. W. Chen; Y. J. Shih; L. K. Chang ; S. T. Liu; TZU-HSUAN CHANG | PLOS Pathogens | 13 | 9 | |
2014 | Regulation of the immediate-early genes of white spot syndrome virus by Litopenaeus vannamei kruppel-like factor (LvKLF) | P. H. Huang; S. C. Lu; S. H. Yang; P. S. Cai; C. F. Lo; L. K. Chang | Developmental and Comparative Immunology | 15 | 13 | |
2017 | Role of Litopenaeus vannamei Yin Yang 1 in the regulation of the white spot syndrome virus immediate early gene ie1 | P. H. Huang; T. Y. Huang; P. S. Cai; L. K. Chang | Journal of Virology | 21 | 16 | |
2012 | Role of Penaeus monodon Kruppel-like factor (PmKLF) in infection by white spot syndrome virus | L. K. Chang ; P. H. Huang; W. T. Shen; S. H. Yang; W. J. Liu; C. F. Lo | Developmental and Comparative Immunology | 17 | 17 | |
2013 | Role of RNF4 in the Ubiquitination of Rta of Epstein-Barr Virus | Y. C. Yang; Y. Yoshikai; S. W. Hsu; H. Saitoh; L. K. Chang | Journal of Biological Chemistry | 26 | 28 | |
2013 | Role of TAF4 in Transcriptional Activation by Rta of Epstein-Barr Virus | Y. C. Yang; L. K. Chang | PLOS One | 9 | 8 | |
2020 | Rta is an Epstein-Barr virus tegument protein that improves the stability of capsid protein BORF1 | Huang, H.-H.; Wang, W.-H.; Feng, T.-H.; Chang, L.-K.; LI-KWAN CHANG | Biochemical and Biophysical Research Communications | 3 | 3 | |
2017 | Shrimp miR-10a is co-opted by white spot syndrome virus to increase viral gene expression and viral replication | Chen I.-T.; Chang L.-K.; Lin S.-S.; Kou G.-H.; Chu C.-Y.; Lo C.-F.; C. Y. Chu; CHIA-YING CHU ; SHIH-SHUN LIN ; L. K. Chang | Frontiers in Immunology | 11 | 9 | |
2006 | SUMO-1 modification of centrosomal protein hNinein promotes hNinein nuclear localization | Cheng T.-S.; Chang L.-K.; Howng S.-L.; Lu P.-J.; Lee C.-I.; Hong Y.-R.; LI-KWAN CHANG | Life Sciences | 18 | 17 | |
2006 | Sumoylation of Rta of Epstein-Barr virus is preferentially enhanced by PIASxβ | Liu S.-T.; Wang W.-H.; Hong Y.-R.; Chuang J.-Y.; Lu P.-J.; Chang L.-K.; LI-KWAN CHANG | Virus Research | 23 | 23 | |
2015 | Transcriptional activation of Epstein–Barr virus BRLF1 by USF1 and Rta | C. C. Hung; C. W. Kuo; W. H. Wang; T. H. Chang; P. J. Chang; L. K. Chang ; TZU-HSUAN CHANG | Journal of General Virology | 8 | 7 | |
1995 | Transposon mutagenesis and cloning of the genes encoding the enzymes of fengycin biosynthesis in Bacillus subtilis | Chen C.-L.; Chang L.-K.; Chang Y.-S.; Liu S.-T.; Tschen J.S.-M.; LI-KWAN CHANG | MGG Molecular & General Genetics | 29 | 28 | |
2017 | TRIM5α Promotes Ubiquitination of Rta from Epstein–Barr Virus to Attenuate Lytic Progression | H. H. Huang; C. S. Chen; W. H. Wang; S. W. Hsu; H. H. Tsai; S. T. Liu; L. K. Chang | Frontiers in Microbiology | 12 | 9 |