Tom Ellis
Tom Ellis
Professor of Synthetic Genome Engineering, Imperial College London
Verified email at - Homepage
Cited by
Cited by
Diversity-based, model-guided construction of synthetic gene networks with predicted functions
T Ellis, X Wang, JJ Collins
Nature biotechnology 27 (5), 465-471, 2009
Quantifying cellular capacity identifies gene expression designs with reduced burden
F Ceroni, R Algar, GB Stan, T Ellis
Nature Methods, 2015
DNA assembly for synthetic biology: from parts to pathways and beyond
T Ellis, T Adie, GS Baldwin
Integr. Biol., 2011
Burden-driven feedback control of gene expression
F Ceroni, A Boo, S Furini, TE Gorochowski, O Borkowski, YN Ladak, ...
Nature methods 15 (5), 387-393, 2018
Bricks and blueprints: methods and standards for DNA assembly
TE Arturo Casini, Marko Storch, Geoffrey S Baldwin
Nature Reviews Molecular Cell Biology 16 (19), 568-576, 2015
Overloaded and stressed: whole-cell considerations for bacterial synthetic biology
O Borkowski, F Ceroni, GB Stan, T Ellis
Current opinion in microbiology 33, 123-130, 2016
Rational Diversification of a Promoter Providing Fine-Tuned Expression and Orthogonal Regulation for Synthetic Biology
BA Blount, T Weenink, S Vasylechko, T Ellis
PLoS One, 2012
Engineering control of bacterial cellulose production using a genetic toolkit and a new cellulose-producing strain
M Florea, H Hagemann, G Santosa, J Abbott, CN Micklem, ...
Proceedings of the National Academy of Sciences 113 (24), E3431-E3440, 2016
Biological engineered living materials: growing functional materials with genetically programmable properties
C Gilbert, T Ellis
ACS synthetic biology 8 (1), 1-15, 2018
Living materials with programmable functionalities grown from engineered microbial co-cultures
C Gilbert, TC Tang, W Ott, BA Dorr, WM Shaw, GL Sun, TK Lu, T Ellis
Nature materials 20 (5), 691-700, 2021
2, 3-Bifunctionalized quinoxalines: synthesis, DNA interactions and evaluation of anticancer, anti-tuberculosis and antifungal activity
MJ Waring, T Ben-Hadda, AT Kotchevar, A Ramdani, R Touzani, ...
Molecules 7 (8), 641-656, 2002
Building-in biosafety for synthetic biology
O Wright, GB Stan, T Ellis
Microbiology 159 (Pt_7), 1221-1235, 2013
The second decade of synthetic biology: 2010–2020
F Meng, T Ellis
Nature Communications 11 (1), 5174, 2020
Engineering a model cell for rational tuning of GPCR signaling
WM Shaw, H Yamauchi, J Mead, GOF Gowers, DJ Bell, D Íling, ...
Cell 177 (3), 782-796. e27, 2019
The spinach RNA aptamer as a characterization tool for synthetic biology
G Pothoulakis, F Ceroni, B Reeve, T Ellis
ACS synthetic biology 3 (3), 182-187, 2014
Sequence-selective interaction of the minor-groove interstrand cross-linking agent SJG-136 with naked and cellular DNA: footprinting and enzyme inhibition studies
C Martin, T Ellis, CJ McGurk, TC Jenkins, JA Hartley, MJ Waring, ...
Biochemistry 44 (11), 4135-4147, 2005
One-pot DNA construction for synthetic biology: the Modular Overlap-Directed Assembly with Linkers (MODAL) strategy
A Casini, JT MacDonald, JD Jonghe, G Christodoulou, PS Freemont, ...
Nucleic acids research 42 (1), e7-e7, 2014
GeneGuard: a modular plasmid system designed for biosafety
O Wright, M Delmans, GB Stan, T Ellis
ACS synthetic biology 4 (3), 307-316, 2015
Predicting translation initiation rates for designing synthetic biology
B Reeve, T Hargest, C Gilbert, T Ellis
Frontiers in bioengineering and biotechnology 2, 1, 2014
Biosynthesis of the antibiotic nonribosomal peptide penicillin in baker’s yeast
AR Awan, BA Blount, DJ Bell, WM Shaw, JCH Ho, RM McKiernan, T Ellis
Nature communications 8 (1), 15202, 2017
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