Tom Williams
Title
Cited by
Cited by
Year
Quorum-sensing linked RNA interference for dynamic metabolic pathway control in Saccharomyces cerevisiae
TC Williams, NJH Averesch, G Winter, MR Plan, CE Vickers, LK Nielsen, ...
Metabolic engineering 29, 124-134, 2015
862015
Controlling heterologous gene expression in yeast cell factories on different carbon substrates and across the diauxic shift: a comparison of yeast promoter activities
B Peng, TC Williams, M Henry, LK Nielsen, CE Vickers
Microbial cell factories 14 (1), 91, 2015
812015
Recent advances in synthetic biology for engineering isoprenoid production in yeast
CE Vickers, TC Williams, B Peng, J Cherry
Current opinion in chemical biology 40, 47-56, 2017
732017
Synthetic evolution of metabolic productivity using biosensors
TC Williams, IS Pretorius, IT Paulsen
Trends in biotechnology 34 (5), 371-381, 2016
682016
Yeast's balancing act between ethanol and glycerol production in low‐alcohol wines
HD Goold, H Kroukamp, TC Williams, IT Paulsen, C Varela, IS Pretorius
Microbial biotechnology 10 (2), 264-278, 2017
672017
Engineered Quorum Sensing Using Pheromone-Mediated Cell-to-Cell Communication in Saccharomyces cerevisiae
TC Williams, LK Nielsen, CE Vickers
ACS synthetic biology 2 (3), 136-149, 2013
482013
Blueprints for biosensors: design, limitations, and applications
AC Carpenter, IT Paulsen, TC Williams
Genes 9 (8), 375, 2018
362018
Evolutionary engineering improves tolerance for replacement jet fuels in Saccharomyces cerevisiae
TCR Brennan, TC Williams, BL Schulz, RW Palfreyman, JO Krömer, ...
Applied and environmental microbiology 81 (10), 3316-3325, 2015
332015
Dynamic regulation of gene expression using sucrose responsive promoters and RNA interference in Saccharomyces cerevisiae
TC Williams, MI Espinosa, LK Nielsen, CE Vickers
Microbial cell factories 14 (1), 43, 2015
282015
Positive-feedback, ratiometric biosensor expression improves high-throughput metabolite-producer screening efficiency in yeast
TC Williams, X Xu, M Ostrowski, IS Pretorius, IT Paulsen
Synthetic Biology 2 (1), ysw002, 2017
162017
The Saccharomyces cerevisiae pheromone-response is a metabolically active stationary phase for bio-production
TC Williams, B Peng, CE Vickers, LK Nielsen
Metabolic Engineering Communications 3, 142-152, 2016
132016
The multiplanetary future of plant synthetic biology
B Llorente, TC Williams, HD Goold
Genes 9 (7), 348, 2018
112018
Evolutionary engineering in Saccharomyces cerevisiae reveals a TRK1-dependent potassium influx mechanism for propionic acid tolerance
X Xu, TC Williams, C Divne, IS Pretorius, IT Paulsen
Biotechnology for biofuels 12 (1), 97, 2019
62019
Photoresponsive endosomal escape enhances gene delivery using liposome–polycation–DNA (LPD) nanovectors
W Chen, W Deng, X Xu, X Zhao, JN Vo, AG Anwer, TC Williams, H Cui, ...
Journal of Materials Chemistry B 6 (32), 5269-5281, 2018
52018
Benchmarking two Saccharomyces cerevisiae laboratory strains for growth and transcriptional response to methanol
MI Espinosa, TC Williams, IS Pretorius, IT Paulsen
Synthetic and systems biotechnology 4 (4), 180-188, 2019
22019
Engineering and Evolution of Methanol Assimilation in Saccharomyces cerevisiae
MI Espinosa, RA Gonzalez-Garcia, K Valgepea, M Plan, C Scott, ...
bioRxiv, 717942, 2020
12020
Microdroplet enabled cultivation of single yeast cells correlates with bulk growth and reveals subpopulation phenomena
H Liu, X Xu, K Peng, Y Zhang, L Jiang, TC Williams, IT Paulsen, JA Piper, ...
Biotechnology and Bioengineering, 2020
2020
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Articles 1–17