公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
2005 | High-level expression and characterization of two chitinases, ChiCH and ChiCW, of Bacillus cereus 28-9 in Escherichia coli | Huang, C.J.; CHAO-YING CHEN | Biochemical and Biophysical Research Communications | 32 | 28 | |
2004 | A hypersensitive response was induced by virulent bacteria in transgenic tobacco plants overexpressing a plant ferredoxin-like protein (PFLP) | Huang, H.E.; Ger, M.J.; Yip, M.K.; Chen, C.Y.; Pandey, A.K.; CHAO-YING CHEN | Physiological Molecular Plant Pathology | 50 | 46 | |
2005 | Identification of an antifungal chitinase from a potential biocontrol agent, Bacillus cereus 28-9 | CHAO-YING CHEN | Journal of Biochemistry and Molecular Biology | 126 | | |
1994 | Inhibition of Agrobacterium tumefaciens oncogenicity by the osa gene of pSa | CHAO-YING CHEN | Journal of Bacteriology | 20 | 19 | |
2023 | Lilium Gray Mold Suppression Conferred by the Host Antimicrobial Protein LsGRP1 Involves Main Pathogen-Targeted Manipulation of the Nonantimicrobial Region LsGRP1N | Lin, Chia-Hua; Liu, Fang-Wei; Pan, Ying-Chieh; CHAO-YING CHEN | Journal of agricultural and food chemistry | 0 | 0 | |
2020 | LsGRP1, a class II glycine-rich protein of Lilium, confers plant resistance via mediating innate immune activation and inducing fungal programmed cell death | Lin, C.-H.; Pan, Y.-C.; Ye, N.-H.; Shih, Y.-T.; Liu, F.-W.; CHAO-YING CHEN | Molecular Plant Pathology | 8 | 7 | |
1995 | Methyl jasmonate-induced resistance in lily plant | Yuan, Y.-F.; Chen, C.-Y. | Plant Pathology Bulletin | | | |
2005 | Molecular analysis of lily leaves in response to salicylic acid effective towards protection against Botrytis elliptica | Lu, Y. Y.; CHAO-YING CHEN | Plant Science | | | |
1995 | Molecular cloning of gene cluster for the degradation of naphthalene to salicylic acid from Pseudomonas putida | 陳昭瑩 | | | | |
1996 | Osa protein encoded by plasmid pSa is localized at the inner membrane but not inhibit membrane association of VirB and V_TTS.DATE | Chen, C.-Y. ; Kado, C. I. | FEMS Microbiology Letters | | | |
1996 | Osa protein encoded by plasmid pSa is located at the inner membrane but does not inhibit membrane association of VirB and VirD virulence proteins in Agrobacterium tumefaciens | CHAO-YING CHEN ; Kado C.I. | FEMS Microbiology Letters | | | |
2017 | The pathogen-inducible promoter of defense-related LsGRP1 gene from Lilium functioning in phylogenetically distinct species of plants | Lin C.-H.; CHAO-YING CHEN | Plant Science | | | |
2012 | Physiological response of Bacillus cereus C1L-induced systemic resistance in lily against Botrytis leaf blight | Huang, C.-J.; Liu, Y.-H.; Yang, K.-H.; CHAO-YING CHEN | European Journal of Plant Pathology | | | |
2006 | Plant ferredoxin-like protein (PFLP) exhibits an anti-microbial ability against soft-rot pathogen Erwinia carotovora subsp. carotovora in vitro and in vivo | Huang, H.-E.; Ger, M.-J.; CHAO-YING CHEN ; Yip, M.-K.; Chung, M.-C.; Feng, T.-Y. | Plant Science | | | |
2022 | The Potential Biocontrol Agent Paenibacillus polymyxa TP3 Produces Fusaricidin-Type Compounds Involved in the Antagonism Against Gray Mold Pathogen Botrytis cinerea | Tsai S.-H; Chen Y.-T; Yang Y.-L; Lee B.-Y; Huang C.-J; CHAO-YING CHEN | Phytopathology | 10 | 7 | |
1998 | Probenazole-induced resistance of lily leaves against Botrytis elliptica | Lu, Y.-Y.; Chen, C.-Y. | Plant Pathology Bulletin | | | |
1997 | Probenazole誘導百合抗病性分析 | 路幼妍; 陳昭瑩 | 中華民國植物病理學會刊 | | | |
2017 | Prokaryotic expression and action mechanism of antimicrobial LsGRP1 C recombinant protein containing a fusion partner of small ubiquitin-like modifier | Lin C.-H.; Pan Y.-C.; Liu F.-W.; CHAO-YING CHEN | Applied Microbiology and Biotechnology | | | |
1995 | Pseudomonas putida 分解奈生成水楊酸基因群之選殖 | 陳昭瑩 | | | | |
2020 | The ptsG gene encoding the major glucose transporter of Bacillus cereus C1L participates in root colonization and beneficial metabolite production to induce plant systemic disease resistance | Lin, C.-H.; Lu, C.-Y.; Tseng, A.-T.; Huang, C.-J.; Lin, Y.-J.; CHAO-YING CHEN | Molecular Plant-Microbe Interactions | 8 | 7 | |