| 公開日期 | 題名 | 作者 | 關聯 | scopus | WOS | 全文 |
1 | 2021 | Harnessing fluorescent moenomycin A antibiotics for bacterial cell wall imaging studies | Hsieh, PY; Meng, FC; Guo, CW; Hu, KH; Shih, YL ; Cheng, WC | CHEMBIOCHEM 22(24), 3462-3468 | | | |
2 | 2021 | Probing bacterial cell wall growth by tracing wall-anchored protein complexes | Sun, YJ; Bai, F; Luo, AC; Zhuang, XY; Lin, TS; Shih, YL ; Lo, CJ | NATURE COMMUNICATIONS 12, 2160 | | | |
3 | 2020 | Peptidoglycan Endopeptidase Spr of Uropathogenic Escherichia coli Contributes to Kidney Infections and Competitive Fitness During Bladder Colonization | Huang, WC; Hashimoto, M; Shih, YL ; Wu, CC; Lee, MF; Chen, YL; Wu, JJ; Wang, MC; Lin, WH; Hong, MY; Teng, CH | FRONTIERS IN MICROBIOLOGY 11, 586214 | | | |
4 | 2020 | Network dynamics of the Cell Wall Synthesizing Complexes in Escherichia coli | Buyanbadrakh, B; PY Hsieh; Shih, YL | | | | |
5 | 2020 | 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(1), e47961 | | | |
6 | 2019 | Patterning membranes by protein self-organization | Yu-Ling Shih | | | | |
7 | 2019 | Synchronizing Min oscillation with nutrient availability in Escherichia coli | Parada, C; Wang, CK; Shih, YL | | | | |
8 | 2019 | Studying bacterial cell growth and division using antibiotic probes | Hsieh, PY; Hu, GS; Cheng, WC; Shih, YL | | | | |
9 | 2019 | A platform to study PG synthesis complex in its native membrane environment | Bolor, Buyanbadrakh; Shih, YL | | | | |
10 | 2019 | Active transport of membrane components by dynamic min protein waves | Shih, YL ; Huang, LT; Tu, YM; Lee, BF; Bau, YC; Hong, CY; Lee, HL; Shih, YP; Hsu, MF; Chen, JS; Lu, ZX; Chao, L | | | | |
11 | 2019 | Active Transport of Membrane Components by Self-Organization of the Min Proteins. | Shih, YL ; Huang, LT; Tu, YM; Lee, BF; Bau, YC; Hong, CY; Lee, HL; Shih, YP; Hsu, MF; Lu, ZX; Chen, JS; Chao, L | BIOPHYSICAL JOURNAL 116(8), 1469-1482 | | | |
12 | 2019 | Active transport of membrane components by dynamic min protein waves | Shih, YL ; Huang, LT; Tu, YM; Lee, BF; Bau, YC; Hong, CY; Lee, HL; Shih, YP; Hsu, MF; Chen, JS; Lu, ZX; Chao, L | | | | |
13 | 2019 | Effector loading onto VgrG spike proteins is critical for the assembly of the type VI secretion system in Agrobacterium tumefaciens | Lien, YW; Wu, CF; Bondage, D; Lin, JS; Shih, YL ; Chang, J; Lai, EM | bioRxiv, 556712 | | | |
14 | 2019 | Application of chemical probes in studying bacterial cell growth and division | Hsieh, PY; Hu, GS; Cheng, WC; Shih, YL | | | | |
15 | 2019 | Synchronizing Min oscillation with nutrient availability in Escherichia coli | Parada, C; Wang, CK; Shih, YL | | | | |
16 | 2018 | Synchronizing Min oscillation with nutrient availability in Escherichia coli | Parada, C; Wang, CK; Shih, YL | | | | |
17 | 2018 | Synchronizing Min oscillation with nutrient availability in Escherichia coli | Wang, CK; Parada, C; Shih, YL | | | | |
18 | 2018 | Investigation of peptidoglycan metabolism in bacteria using a novel moenomycin A analogue probe | Wang, KC; Munagala, G; Hsieh, PY; Lin, KY; Cheng, WC; Shih, YL | | | | |
19 | 2018 | Roles of Protein Lysine Acetyltransferase in Cell Division and Size Control in Escherichia coli | Tsai, YL; Chuan, HY; Shih, YL | | | | |
20 | 2017 | Investigation of a novel fluorophore-labeled Lipid II analog in the metabolism of peptidoglycan in bacteria | Wang, KC; Pang, CY; Munagala, G; Lin, KY; Cheng, WC; Shih, YL | | | | |
21 | 2017 | Cell division and Metabolism in Escherichia coli: a connection through the Min system | Shih, YL | | | | |
22 | 2017 | Investigation of 6-Phosphofructokinase I in Cell Growth and Division of Escherichia coli | Wang, CK; Hung, CH; Shih, YL | | | | |
23 | 2016 | Protein-membrane Interaction underlying a Biological Oscillator, the E. coli Min System | Yu-Ling Shih | | | | |
24 | 2016 | Membrane localization of metabolic enzymes and metabolic modulation in a cell division mutant of Escherichia coli identified by omics approaches | Shih, YL ; Lee, HL; Chiang, IC; Liang, SY; Lee, DY; Chang, GD; Wang, KY; Lin, SY | | | | |
25 | 2016 | Involvement of type VI secretion system in secretion of iron chelator pyoverdine in Pseudomonas taiwanensis | Chen, WJ; Kuo, TY; Hsieh, FC; Chen, PY; Wang, CS; Shih, YL ; Lai, YM; Liu, JR; Yang, YL ; Shih, MC | Scientific reports 6, 32950 | | | |
26 | 2016 | Quantitative proteomics analysis reveals the Min system of Escherichia coli modulates reversible protein association with the inner membrane | Lee, HL; Chiang, IC; Liang, SY; Lee, DY; Chang, GD; Wang, KY; Lin, SY; Shih, YL | | | | |
27 | 2016 | Quantitative proteomics analysis reveals the Min system of Escherichia coli modulates reversible protein association with the inner membrane | Lee, HL; Chiang, IC; Liang, SY; Lee, DY; Chang, GD; Wang, KY; Lin, SY; Shih, YL | | | | |
28 | 2016 | Quantitative inner membrane proteome datasets of the wild-type and the Δmin mutant of Escherichia coli | Liang, SY; Lin, SY; Chiang, IC; Shih, YL | Data in Brief 8, 304-307 | | | |
29 | 2016 | A multivalent marine lectin from Crenomytilus grayanus possesses anti-cancer activity through recognizing globotriose Gb3 | Liao, JH; Chien, CT; Wu, HY; Huang, KF ; Wang, I; Ho, MR ; Tu, IF; Lee, IM; Li, W; Shih, YL ; Wu, CY ; Lukyanov, PA; Hsu, STD ; Wu, SH | Journal of the American Chemical Society 138(14), 4787-4795 | | | |
30 | 2016 | Quantitative proteomics analysis reveals the Min system of Escherichia coli modulates reversible protein association with the inner membrane | Lee, HL; Chiang, IC; Liang, SY; Lee, DY; Chang, GD; KY Wang; Lin, SY ; Shih, YL | MOLECULAR & CELLULAR PROTEOMICS Epub ahead of print | | | |
31 | 2015 | Analysis of the inner membrane proteome reveals metabolic modulation in the Δmin mutant of Escherichia coli | Lee, HL; Chiang, IC; Liang, SY; Lee, DY; Chang, GD; Lin, SY; Shih, YL | | | | |
32 | 2015 | Mitochondrial Genome Maintenance 1 (Mgm1) Protein alters membrane topology and promotes local membrane bending | Rujiviphat, J; Wong, MK; Won, A; Shih, YL ; Yip, CM; McQuibban, AG | J Mol Biol 427(16), 2595-2598 | | | |
33 | 2014 | The N-terminal domain of MinE exhibits amyloidogenic property that underlies formation of the MinE ring | Shih, YL | | | | |
34 | 2014 | Comparative inner membrane proteomic analysis of the Escherichia coli min mutant | Chiang, IC; Liang, SY; Shih, YL | | | | |
35 | 2014 | Biochemical Analysis of Interaction between FtsZ and Membrane | Cho, HC; Wu, HY; Shih, YL | | | | |
36 | 2013 | Division site placement in E. coli: self-assembly of MinE on the membrane exhibits spatial preference | Chiang, YL; Chang, YC; Mak, HM; Zheng, M; Hwang, IS; Shih, YL | | | | |
37 | 2013 | Division site placement in E. coli: Molecular recognition and functional switches of the Min proteins | Zheng, M; Kong, LR; Rothfield, LI; Shih, YL | | | | |
38 | 2013 | Division site placement in E. coli: self-assembly of MinE on the membrane exhibits spatial preference | Chiang, YL; Chang, YC; Mak, HM; Zheng, M; Hwang, IS; Shih, YL | | | | |
39 | 2013 | Spatial control of the cell division site by the Min system in E. coli | Shih, YL ; Zheng, M | Environmental Microbiology Eupb | | | |
40 | 2012 | Division site placement in E. coli: Dissecting functional domains of MinE | Chiang, YL; Chang, YC; Mak, HM; Zheng, M; Hwang, IS; Shih, YL | | | | |
41 | 2012 | Division site placement in E. coli: Dissecting functional domains of MinE through in vitro approaches | Chiang, YL; Chang, YC; Ma, k HM; Zheng, M; Hwang, IS; Shih, YL | | | | |
42 | 2012 | Functional Analysis of the Chromosome Segregation System of Streptomyces coelicolor | Chang, CM; Mak, HM; Cheng, YT; Shih, YL | | | | |
43 | 2011 | Molecular mechanism underlying MinE-induced membrane deformation | Shih, Yu-Ling | | | | |
44 | 2011 | Molecular mechanism underlying MinE-induced membrane deformation | Shih, YL ; Huang, KF ; Liao, JH; Lee, CS; Mak, HM; Chang, CM | | | | |
45 | 2011 | Roles of the direct MinE-membrane interaction in proper function of the Min system | Shih, YL | | | | |
46 | 2011 | The N-terminal amphipathic helix of the topological specificity factor MinE is associated with shaping membrane curvature | Shih, YL ; Huang, KF ; Lai, HM; Liao, JH; Lee, CS; Chang, CM; Mak, HM; Hsieh, CW; Lin, CC | PLoS One 6(6), e21425 | | | |
47 | 2010 | The mechanism underlying MinE-induced membrane deformation | Shih, YL ; Huang, KF ; Lai, HM; Hsieh, CW; Liao, JH; Lin, CC | | | | |
48 | 2010 | Roles of the direct MinE-membrane interaction in proper function of the Min system | Hsieh, CW; Lin, TY; Lai, HM; Lin, CC; Hsieh, TS; Shih, YL | | | | |
49 | 2010 | The mechanism underlying MinE-induced membrane deformation | Lin, Ti-Yu; Hsieh, Cheng-Wei; Huang, Kai-Fa ; Hou, Li-Hsiu; Lin, Chu-Chi; Tseng, Jui-Heng; Shih, Yu-Ling | | | | |
50 | 2010 | Roles of the direct MinE-membrane interaction in proper function of the Min system | Hsieh, Cheng-Wei; Lin, Ti-Yu; Lai, Hsin-Mei; Lin, Chu-Chi; Hsieh, Ting-Sung; Shih, Yu-Ling | | | | |
51 | 2010 | Characterization of the membrane deformation activity of the topological specificity factor MinE of the E. coli divisome | Hsieh, Cheng-Wei; Lai, Hsin-Mei; Lin, Ti-Yu; Hsieh, Ting-Sung; Lin, Chu-Chi; Shih, Yu-Ling | | | | |
52 | 2010 | Characterization of the membrane deformation activity of the topological specificity factor MinE of the E. coli divisome | Hsieh, CW; Lai, HM; Lin, TY; Hsieh, TS; Lin, CC; Shih, YL | | | | |
53 | 2010 | Roles of the direct MinE-membrane interaction in proper function of the Min system | Hsieh, Cheng-Wei; Lin, Ti-Yu; Lai, Hsin-Mei; Lin, Chu-Chi; Hsieh, Ting-Sung; Wu, Kuan-Yi; Shih, Yu-Ling | | | | |
54 | 2010 | The mechanism underlying the membrane-deformation property of MinE | Lin, Ti-Yu; Hsieh, Cheng-Wei; Lai, Hsin-Mei; Lin, Chu-Chi; Shih, Yu-Ling | | | | |
55 | 2010 | Analysis of functional domains of ParB that involves in chromosome partition in Streptomyces coelicolor | Pao, Yiwen; Huang, Kai-Fa ; Lin, Yuan-Chi; Wang, Andrew HJ ; Shih, Yu-Ling | | | | |
56 | 2010 | Cellular localization of the septal proteins in Escherichia coli | Lin, Chieh-Ti; Hou, Li-Hsiu; Shih, Yu-Ling | | | | |
57 | 2010 | Cellular localization of the septal proteins in Escherichia coli | Lin, Chieh-Ti; Hou, Li-Hsiu; Shih, Yu-Ling | | | | |
58 | 2010 | Analysis of functional domains of ParB that involves in chromosome partition in Streptomyces coelicolor | Pao, Yiwen; Huang, Kai-Fa ; Lin, Yuan-Chi; Wang, Andrew HJ ; Shih, Yu-Ling | | | | |
59 | 2010 | Direct MinE–membrane interaction contributes to the proper localization of MinDE in E. coli | Hsieh, CW; Lai, HM; Lin, CC; Lin, TY; Hsieh, TS; Shih, YL | Molecular Microbiology 75(2), 499-512 | | | |
60 | 2009 | Roles of the direct MinE-membrane interaction in proper function of the Min system | Hsieh, Cheng-Wei; Lin, Ti-Yu; Lai, Hsin-Mei; Lin, Chu-Chi; Hsieh, Ting-Sung; Wu, Kuan-Yi; Shih, Yu-Ling | | | | |
61 | 2009 | Mapping functional domains responsible for DNA association and dynamic movement in ParA1 of Streptomyces coelicolor | Wu, KY; Lin, YC; Tseng, JH; Hsieh, TS; Shih, YL | | | | |
62 | 2009 | The N-terminal domain of MinE contributes to both membrane binding and induction of MinD ATPase activity | Hsieh, CW; Shih, YL | | | | |
63 | 2009 | Membrane remodeling induced by direct MinE-membrane interaction | Lai, HM; Lin, TY; Lin, CC; Hsieh, TS; Shih, YL | | | | |
64 | 2009 | Evidence for membrane remodeling induced by direct MinE-membrane interaction | Lai, HM; Hsieh, CW; Lin, TY; Shih, YL | | | | |
65 | 2009 | The N-terminal domain of MinE contributes to both membrane binding and induction of MinD ATPase activity | Hsieh, CW; Shih, YL | | | | |
66 | 2009 | Mapping functional domains responsible for DNA association and dynamic movement in ParA1 of Streptomyces coelicolor | Wu, KY; Lin, YC; Tseng, JH; Hsieh, TS; Shih, YL | | | | |
67 | 2009 | Assembly of the MreB-associated cytoskeletal ring of Escherichia coli. | Vats, P; Shih, YL ; Rothfield, L | Molecular microbiology 72(1), 170-182 | | | |
68 | 2008 | Evidence of direct MinE-membrane interaction and its involvement in membrane remodeling during cytokinesis in E. coli | Lin, CC; Lai, HM; Hsieh, CW; Shih, YL | | | | |
69 | 2008 | Regulation of membrane dynamics by the cell division site determinig proteins of E. coli | Lai, HM; Lin, CC; Hsieh, CW; Shih, YL | | | | |
70 | 2007 | Defective growth pattern and nucleoid distribution caused by mutations in yhdE and rng of the mre locus in E. coli | Shih, YL | | | | |
71 | 2007 | Polar positional information in Escherichia coli spherical cells. | Pradel, N; Santini, CL; Bernadac, A; Shih, YL ; Goldberg, MB; Wu, LF | Biochemical and biophysical research communications 353(2), 493-500 | | | |
72 | 2006 | The bacterial cytoskeleton | Shih, YL ; Rothfield, L | Microbiology and Molecular Biology Reviews 70, 729-754 | | | |
73 | 2005 | The MreB and Min cytoskeletal-like systems play independent roles in prokaryotic polar differentiation | Shih, YL ; Kawagishi, I; Rothfield, L | Mol Microbiol 58, 917-928 | | | |
74 | 2005 | Spatial control of bacterial division-site placement | Rothfield, L; Taghbalout, A; Shih, YL | Nat Rev Microbiol 3, 959-968 | | | |
75 | 2003 | Division site selection in Escherichia coli involves dynamic redistribution of Min proteins within coiled structures that extend between the two cell poles. | Shih, YL ; Le, T; Rothfield, L | Proceedings of the National Academy of Sciences of the United States of America 100(13), 7865-7870 | | | |
76 | 2002 | Division site placement in E.coli: mutations that prevent formation of the MinE ring lead to loss of the normal midcell arrest of growth of polar MinD membrane domains | Shih, YL ; Fu, X; King, GF; Le, T; Rothfield, L | EMBO J 21, 3347-3357 | | | |
77 | 2001 | The MinE ring required for proper placement of the division site is a mobile structure that changes its cellular location during the Escherichia coli division cycle. | Fu, X; Shih, YL ; Zhang, Y; Rothfield, LI | Proceedings of the National Academy of Sciences of the United States of America 98(3), 980-985 | | | |
78 | 2001 | Polar explorers: membrane proteins that determine division site placement. | Rothfield, LI; Shih, YL ; King, G | Cell 106(1), 13-16 | | | |
79 | 2000 | Structural basis for the topological specificity function of MinE. | King, GF; Shih, YL ; Maciejewski, MW; Bains, NP; Pan, B; Rowland, SL; Mullen, GP; Rothfield, LI | Nature structural biology 7(11), 1013-1017 | | | |
80 | 1999 | The hexY genes of Erwinia carotovora ssp. carotovora and ssp. atroseptica encode novel proteins that regulate virulence and motility co-ordinately. | Shih, YL ; Harris, SJ; Borner, G; Rivet, MM; Salmond, GP | Environmental microbiology 1(6), 535-547 | | | |
81 | 1998 | The hexA gene of Erwinia carotovora encodes a LysR homologue and regulates motility and the expression of multiple virulence determinants. | Harris, SJ; Shih, YL ; Bentley, SD; Salmond, GP | Molecular microbiology 28(4), 705-717 | | | |
82 | 1997 | Generalized transduction in the potato blackleg pathogen Erwinia carotovora subsp. atroseptica by bacteriophage M1 | Toth, I; Mulholland, V; Copper, V; Bentley, S; Shih, YL ; Perombelon, M; Salmond, GPC | Microbiology 143(7), 2433-2438 | | | |
83 | - | Molecular recognition and functional switches of the Min proteins | Zheng, M; Kong, LJ; Chang, CM; Lutkenhaus, J; Rothfield, LI; Shih, YL | | | | |
84 | - | Division site placement in E. coli: self-assembly of MinE on the membrane exhibits spatial preference | Chiang, Ya-Ling; Chang, Yuen-Chih; Mak, Huey-Ming; Zheng, Min; Hwang, Ing-Shouh ; Shih, Yu-Ling | Nature Communications | | | |