T-Y Dora Tang
T-Y Dora Tang
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Fatty acid membrane assembly on coacervate microdroplets as a step towards a hybrid protocell model
TY Dora Tang, C Rohaida Che Hak, AJ Thompson, MK Kuimova, ...
Nature chemistry 6 (6), 527-533, 2014
MaxSynBio: avenues towards creating cells from the bottom up
P Schwille, J Spatz, K Landfester, E Bodenschatz, S Herminghaus, ...
Angewandte Chemie International Edition 57 (41), 13382-13392, 2018
Compartmentalised RNA catalysis in membrane-free coacervate protocells
B Drobot, JM Iglesias-Artola, K Le Vay, V Mayr, M Kar, M Kreysing, ...
Nature communications 9 (1), 3643, 2018
Synthetic cellularity based on non-lipid micro-compartments and protocell models
M Li, X Huang, TYD Tang, S Mann
Current opinion in chemical biology 22, 1-11, 2014
Reversible pH‐responsive coacervate formation in lipid vesicles activates dormant enzymatic reactions
C Love, J Steinkühler, DT Gonzales, N Yandrapalli, T Robinson, ...
Angewandte Chemie 132 (15), 6006-6013, 2020
In vitro gene expression within membrane-free coacervate protocells
TYD Tang, D Van Swaay, A DeMello, JLR Anderson, S Mann
Chemical Communications 51 (57), 11429-11432, 2015
Gene-mediated chemical communication in synthetic protocell communities
TYD Tang, D Cecchi, G Fracasso, D Accardi, A Coutable-Pennarun, ...
ACS synthetic biology 7 (2), 339-346, 2018
Engineering bicontinuous cubic structures at the nanoscale—the role of chain splay
CV Kulkarni, TY Tang, AM Seddon, JM Seddon, O Ces, RH Templer
Soft Matter 6 (14), 3191-3194, 2010
Microfluidic formation of membrane‐free aqueous coacervate droplets in water
D van Swaay, TYD Tang, S Mann, A de Mello
Angewandte Chemie International Edition 54 (29), 8398-8401, 2015
Can coacervation unify disparate hypotheses in the origin of cellular life?
B Ghosh, R Bose, TYD Tang
Current opinion in colloid & interface science 52, 101415, 2021
Small-molecule uptake in membrane-free peptide/nucleotide protocells
TYD Tang, M Antognozzi, JA Vicary, AW Perriman, S Mann
Soft Matter 9 (31), 7647-7656, 2013
Non-equilibrium conditions inside rock pores drive fission, maintenance and selection of coacervate protocells
A Ianeselli, D Tetiker, J Stein, A Kühnlein, CB Mast, D Braun, ...
Nature chemistry 14 (1), 32-39, 2022
Cell-free gene expression dynamics in synthetic cell populations
DT Gonzales, N Yandrapalli, T Robinson, C Zechner, TYD Tang
ACS synthetic biology 11 (1), 205-215, 2022
Charge-density reduction promotes ribozyme activity in RNA–peptide coacervates via RNA fluidization and magnesium partitioning
JM Iglesias-Artola, B Drobot, M Kar, AW Fritsch, H Mutschler, ...
Nature chemistry 14 (4), 407-416, 2022
Microfluidic formation of proteinosomes
M Ugrinic, A Zambrano, S Berger, S Mann, TYD Tang, A Demello
Chemical Communications 54 (3), 287-290, 2018
Polynucleotides in cellular mimics: coacervates and lipid vesicles
JR Vieregg, TYD Tang
Current opinion in colloid & interface science 26, 50-57, 2016
Microfluidic tools for bottom-up synthetic cellularity
M Ugrinic, A deMello, TYD Tang
Chem 5 (7), 1727-1742, 2019
Spontaneous membrane-less multi-compartmentalization via aqueous two-phase separation in complex coacervate micro-droplets
NG Moreau, N Martin, P Gobbo, TYD Tang, S Mann
Chemical Communications 56 (84), 12717-12720, 2020
High‐Throughput Synthesis and Screening of Functional Coacervates Using Microfluidics
T Beneyton, C Love, M Girault, TYD Tang, JC Baret
ChemSystemsChem,, 2020
Hydrostatic pressure effects on the lamellar to gyroid cubic phase transition of monolinolein at limited hydration
TYD Tang, NJ Brooks, C Jeworrek, O Ces, NJ Terrill, R Winter, ...
Langmuir 28 (36), 13018-13024, 2012
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