John Dueber
John Dueber
Professor of Bioengineering, University of California, Berkeley
Verified email at - Homepage
Cited by
Cited by
Synthetic protein scaffolds provide modular control over metabolic flux
JE Dueber, GC Wu, GR Malmirchegini, TS Moon, CJ Petzold, AV Ullal, ...
Nature biotechnology 27 (8), 753-759, 2009
Engineering complex synthetic transcriptional programs with CRISPR RNA scaffolds
JG Zalatan, ME Lee, R Almeida, LA Gilbert, EH Whitehead, M La Russa, ...
Cell 160 (1), 339-350, 2015
A highly characterized yeast toolkit for modular, multipart assembly
ME Lee, WC DeLoache, B Cervantes, JE Dueber
ACS synthetic biology 4 (9), 975-986, 2015
BglBricks: A flexible standard for biological part assembly
JC Anderson, JE Dueber, M Leguia, GC Wu, JA Goler, AP Arkin, ...
Journal of biological engineering 4, 1-12, 2010
Selection of chromosomal DNA libraries using a multiplex CRISPR system
OW Ryan, JM Skerker, MJ Maurer, X Li, JC Tsai, S Poddar, ME Lee, ...
elife 3, e03703, 2014
An enzyme-coupled biosensor enables (S)-reticuline production in yeast from glucose
WC DeLoache, ZN Russ, L Narcross, AM Gonzales, VJJ Martin, ...
Nature chemical biology 11 (7), 465-471, 2015
Reprogramming control of an allosteric signaling switch through modular recombination
JE Dueber, BJ Yeh, K Chak, WA Lim
Science 301 (5641), 1904-1908, 2003
Use of modular, synthetic scaffolds for improved production of glucaric acid in engineered E. coli
TS Moon, JE Dueber, E Shiue, KLJ Prather
Metabolic engineering 12 (3), 298-305, 2010
DNA-guided assembly of biosynthetic pathways promotes improved catalytic efficiency
RJ Conrado, GC Wu, JT Boock, H Xu, SY Chen, T Lebar, J Turnšek, ...
Nucleic acids research 40 (4), 1879-1889, 2012
CRISPR-guided DNA polymerases enable diversification of all nucleotides in a tunable window
SO Halperin, CJ Tou, EB Wong, C Modavi, DV Schaffer, JE Dueber
Nature 560 (7717), 248-252, 2018
Spatial organization of enzymes for metabolic engineering
H Lee, WC DeLoache, JE Dueber
Metabolic engineering 14 (3), 242-251, 2012
Expression-level optimization of a multi-enzyme pathway in the absence of a high-throughput assay
ME Lee, A Aswani, AS Han, CJ Tomlin, JE Dueber
Nucleic acids research 41 (22), 10668-10678, 2013
De novo design of bioactive protein switches
RA Langan, SE Boyken, AH Ng, JA Samson, G Dods, AM Westbrook, ...
Nature 572 (7768), 205-210, 2019
Employing a biochemical protecting group for a sustainable indigo dyeing strategy
TM Hsu, DH Welner, ZN Russ, B Cervantes, RL Prathuri, PD Adams, ...
Nature Chemical Biology 14 (3), 256-261, 2018
Engineering synthetic signaling proteins with ultrasensitive input/output control
JE Dueber, EA Mirsky, WA Lim
Nature biotechnology 25 (6), 660-662, 2007
Rewiring cell signaling: the logic and plasticity of eukaryotic protein circuitry
JE Dueber, BJ Yeh, RP Bhattacharyya, WA Lim
Current opinion in structural biology 14 (6), 690-699, 2004
Towards repurposing the yeast peroxisome for compartmentalizing heterologous metabolic pathways
WC DeLoache, ZN Russ, JE Dueber
Nature Communications 7 (1), 11152, 2016
The pathogen protein EspFU hijacks actin polymerization using mimicry and multivalency
NA Sallee, GM Rivera, JE Dueber, D Vasilescu, RD Mullins, BJ Mayer, ...
Nature 454 (7207), 1005-1008, 2008
A yeast platform for high-level synthesis of tetrahydroisoquinoline alkaloids
ME Pyne, K Kevvai, PS Grewal, L Narcross, B Choi, L Bourgeois, ...
Nature Communications 11 (1), 3337, 2020
Modular and tunable biological feedback control using a de novo protein switch
AH Ng, TH Nguyen, M Gómez-Schiavon, G Dods, RA Langan, SE Boyken, ...
Nature 572 (7768), 265-269, 2019
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