Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
2020 | A High-throughput Interbacterial Competition Platform | Hsiao-Han Lin; Erh-Min Lai | Bio-protocol 10(17), e3736 | | | |
2020 | A High-Throughput Interbacterial Competition Screen Identifies ClpAP in Enhancing Recipient Susceptibility to Type VI Secretion System-Mediated Attack by Agrobacterium tumefaciens. | Lin, HH; Yu, M; Sriramoju, MK; Hsu, SD ; Liu, CT; Lai, EM | Frontiers in microbiology 10, 3077 | | | |
2021 | Agrobacterium tumefaciens Deploys a Versatile Antibacterial Strategy to Increase its Competitiveness | Yu, Manda; Wang, Yi-Chieh; Huang, Ching-Jou; Ma, Lay-Sun ; Lai, Erh-Min | Journal of Bacteriology 203(3), e00490-20 | | | |
2022 | AGROBEST: a highly efficient Agrobacterium-mediated transient expression system in Arabidopsis seedlings | Wu, HY; Lai, EM | Methods Mol Biol: Plant Synthetic Biology (New York : Springer) | | | |
2019 | Cyclic di-GMP inactivates T6SS and T4SS activity in Agrobacterium tumefaciens. | McCarthy, RR; Yu, M; Eilers, K; Wang, YC; Lai, EM ; Filloux, A | Molecular microbiology 112(2), 632-648 | | | |
2019 | Differentiations in Gene Content and Expression Response to Virulence Induction Between Two Agrobacterium Strains | Haryono, M; Cho, ST; Fang, MJ; Chen, AP; Chou, SJ ; Lai, EM ; Kuo, CH | Frontiers in Microbiology 10, 1554 | | | |
2022 | Distinct TssA proteins converge in coordinating tail biogenesis of the type VI secretion systems | Ali, J.; Lai, EM | BIOESSAYS 45(2), 2200219 | | | |
2021 | Diversification of the Type VI Secretion System in Agrobacteria | Wu, CF; Weisberg, AJ; Davis, II, EW; Chou, L; Khan, S; Lai, EM ; Kuo, CH ; Chang, JH | mBio 12(5), e01927-21 | | | |
2019 | Effector loading onto the VgrG carrier activates type VI secretion system assembly | Wu, CF; Lien, YW; Bondage, D; Lin, JS; Pilhofer, M; Shih, YL; Chang, JH; Lai, EM | EMBO Reports 21, e47961 | | | |
2023 | In Situ Structure Determination of Bacterial Surface Nanomachines Using Cryo-Electron Tomography | Lai, LS; Cheung, YW; Martinez, M; Kixmoeller, K; Palao III, L; Steimle, S; Ho, MC ; Black, B; Lai, EM ; Chang, YW | Bacterial and Archaeal Motility, Methods in Molecular Biology (New York, NY : Springer Nature) | | | |
2022 | Modular evolution of secretion systems and virulence plasmids in a bacterial species complex | Chou, L; Lin, YC; Haryono, M; Santos, MNM; Cho, ST; Weisberg, AJ; Wu, CF; Chang, JH; Lai, EM ; Kuo, CH | BMC Biology 20, 16 | | | |
2019 | Plant-Pathogenic Agrobacterium tumefaciens Strains Have Diverse Type VI Effector-Immunity Pairs and Vary in In-Planta Competitiveness. | Wu, CF; Santos, MNM; Cho, ST; Chang, HH; Tsai, YM; Smith, DA; Kuo, CH ; Chang, JH; Lai, EM | Molecular plant-microbe interactions (MPMI) 32(8), 961-971 | | | |
2020 | Redundancy and Specificity of Type VI Secretion vgrG Loci in Antibacterial Activity of Agrobacterium tumefaciens 1D1609 Strain | Santos, MNM; Cho, ST; Wu, CF; Chang, CJ; Kuo, CH ; Lai, EM | Frontiers in microbiology 10, 3004 | | | |
2020 | Role of Recipient Susceptibility Factors During Contact-Dependent Interbacterial Competition | Lin, Hsiao-Han; Filloux, Alain; Lai, Erh-Min | Frontiers in Microbiology 11, 603652 | | | |
2023 | Soil Inoculation and Blocker-Mediated Sequencing Show Effects of the Antibacterial T6SS on Agrobacterial Tumorigenesis and Gallobiome | Wang, SC; Chen, AP; Chou, SJ ; Kuo, CH ; Lai, EM | MBIO 14(2), e00177-23 | | | |
2019 | The RNase YbeY Is Vital for Ribosome Maturation, Stress Resistance, and Virulence of the Natural Genetic Engineer Agrobacterium tumefaciens | Möller, P; Busch, P; Sauerbrei, B; Kraus, A; Förstner, KU; Wen, TN; Overlöper, A; Lai, EM ; Narberhaus, F | Journal of Bacteriology 201, e00730-18 | | | |