Michael C. Jewett
Title
Cited by
Cited by
Year
Precise manipulation of chromosomes in vivo enables genome-wide codon replacement
FJ Isaacs, PA Carr, HH Wang, MJ Lajoie, B Sterling, L Kraal, AC Tolonen, ...
Science 333 (6040), 348-353, 2011
4912011
Cell-free protein synthesis: applications come of age
ED Carlson, R Gan, CE Hodgman, MC Jewett
Biotechnology advances 30 (5), 1185-1194, 2012
4702012
Cell-free synthetic biology: thinking outside the cell
CE Hodgman, MC Jewett
Metabolic engineering 14 (3), 261-269, 2012
3312012
Mimicking the Escherichia coli cytoplasmic environment activates long‐lived and efficient cell‐free protein synthesis
MC Jewett, JR Swartz
Biotechnology and bioengineering 86 (1), 19-26, 2004
3282004
An integrated cell‐free metabolic platform for protein production and synthetic biology
MC Jewett, KA Calhoun, A Voloshin, JJ Wuu, JR Swartz
Molecular systems biology 4 (1), 2008
2802008
Cell‐free metabolic engineering: biomanufacturing beyond the cell
QM Dudley, AS Karim, MC Jewett
Biotechnology journal 10 (1), 69-82, 2015
1762015
Impact of systems biology on metabolic engineering of Saccharomyces cerevisiae
J Nielsen, MC Jewett
FEMS yeast research 8 (1), 122-131, 2008
1752008
The genome-scale metabolic model iIN800 of Saccharomyces cerevisiae and its validation: a scaffold to query lipid metabolism
I Nookaew, MC Jewett, A Meechai, C Thammarongtham, K Laoteng, ...
BMC systems biology 2 (1), 71, 2008
1702008
Linking high-resolution metabolic flux phenotypes and transcriptional regulation in yeast modulated by the global regulator Gcn4p
JF Moxley, MC Jewett, MR Antoniewicz, SG Villas-Boas, H Alper, ...
Proceedings of the National Academy of Sciences 106 (16), 6477-6482, 2009
1662009
How many human proteoforms are there?
R Aebersold, JN Agar, IJ Amster, MS Baker, CR Bertozzi, ES Boja, ...
Nature chemical biology 14 (3), 206, 2018
1612018
High-throughput preparation methods of crude extract for robust cell-free protein synthesis
YC Kwon, MC Jewett
Scientific reports 5 (1), 1-8, 2015
1532015
Protein synthesis by ribosomes with tethered subunits
C Orelle, ED Carlson, T Szal, T Florin, MC Jewett, AS Mankin
Nature 524 (7563), 119-124, 2015
1352015
Update on designing and building minimal cells
MC Jewett, AC Forster
Current opinion in biotechnology 21 (5), 697-703, 2010
1312010
Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids
M Amiram, AD Haimovich, C Fan, YS Wang, HR Aerni, I Ntai, DW Moonan, ...
Nature biotechnology 33 (12), 1272, 2015
1252015
In vitro integration of ribosomal RNA synthesis, ribosome assembly, and translation
MC Jewett, BR Fritz, LE Timmerman, GM Church
Molecular systems biology 9 (1), 2013
1102013
Reconstruction of the yeast Snf1 kinase regulatory network reveals its role as a global energy regulator
R Usaite, MC Jewett, AP Oliveira, JR Yates, L Olsson, J Nielsen
Molecular systems biology 5 (1), 2009
1062009
Substrate replenishment extends protein synthesis with an in vitro translation system designed to mimic the cytoplasm
MC Jewett, JR Swartz
Biotechnology and bioengineering 87 (4), 465-471, 2004
1042004
A cell-free framework for rapid biosynthetic pathway prototyping and enzyme discovery
AS Karim, MC Jewett
Metabolic engineering 36, 116-126, 2016
1022016
Cell-free Protein Synthesis from a Release Factor 1 Deficient Escherichia coli Activates Efficient and Multiple Site-specific Nonstandard Amino Acid Incorporation
SH Hong, I Ntai, AD Haimovich, NL Kelleher, FJ Isaacs, MC Jewett
ACS synthetic biology 3 (6), 398-409, 2014
992014
Non-standard amino acid incorporation into proteins using Escherichia coli cell-free protein synthesis
SH Hong, YC Kwon, MC Jewett
Frontiers in chemistry 2, 34, 2014
852014
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