|Sugar synthesis from CO2 in Escherichia coli|
N Antonovsky, S Gleizer, E Noor, Y Zohar, E Herz, U Barenholz, ...
Cell 166 (1), 115-125, 2016
|Spanning high-dimensional expression space using ribosome-binding site combinatorics|
L Zelcbuch, N Antonovsky, A Bar-Even, A Levin-Karp, U Barenholz, ...
Nucleic acids research 41 (9), e98-e98, 2013
|Conversion of Escherichia coli to generate all biomass carbon from CO2|
S Gleizer, R Ben-Nissan, YM Bar-On, N Antonovsky, E Noor, Y Zohar, ...
Cell 179 (6), 1255-1263. e12, 2019
|Quantifying Translational Coupling in E. coli Synthetic Operons Using RBS Modulation and Fluorescent Reporters|
A Levin-Karp, U Barenholz, T Bareia, M Dayagi, L Zelcbuch, ...
ACS synthetic biology 2 (6), 327-336, 2013
|Design principles of autocatalytic cycles constrain enzyme kinetics and force low substrate saturation at flux branch points|
U Barenholz, D Davidi, E Reznik, Y Bar-On, N Antonovsky, E Noor, R Milo
Elife 6, e20667, 2017
|HIV-1 gp41 and TCRα trans-membrane domains share a motif exploited by the HIV virus to modulate T-cell proliferation|
T Cohen, SJ Cohen, N Antonovsky, IR Cohen, Y Shai
PLoS Pathog 6 (9), e1001085, 2010
|Assembly of the TLR2/6 transmembrane domains is essential for activation and is a target for prevention of sepsis|
A Fink, EM Reuven, CJ Arnusch, L Shmuel-Galia, N Antonovsky, Y Shai
The Journal of Immunology 190 (12), 6410-6422, 2013
|ADAM metalloproteases promote a developmental switch in responsiveness to the axonal repellant Sema3A|
E Romi, I Gokhman, E Wong, N Antonovsky, A Ludwig, I Sagi, P Saftig, ...
Nature communications 5 (1), 1-15, 2014
|Pyruvate Formate-Lyase Enables Efficient Growth of Escherichia coli on Acetate and Formate|
L Zelcbuch, SN Lindner, Y Zegman, I Vainberg Slutskin, N Antonovsky, ...
Biochemistry 55 (17), 2423-2426, 2016
|The genetic basis for the adaptation of E. coli to sugar synthesis from CO 2|
E Herz, N Antonovsky, Y Bar-On, D Davidi, S Gleizer, N Prywes, ...
Nature communications 8 (1), 1-10, 2017
|Engineering carbon fixation in E. coli: from heterologous RuBisCO expression to the Calvin–Benson–Bassham cycle|
N Antonovsky, S Gleizer, R Milo
Current opinion in biotechnology 47, 83-91, 2017
|Highly active rubiscos discovered by systematic interrogation of natural sequence diversity|
D Davidi, M Shamshoum, Z Guo, YM Bar‐On, N Prywes, A Oz, ...
The EMBO journal 39 (18), e104081, 2020
|Uncovering the biosynthetic potential of rare metagenomic DNA using co-occurrence network analysis of targeted sequences|
V Libis, N Antonovsky, M Zhang, Z Shang, D Montiel, J Maniko, MA Ternei, ...
Nature communications 10 (1), 1-9, 2019
|An in vivo metabolic approach for deciphering the product specificity of glycerate kinase proves that both E. coli’s glycerate kinases generate 2-phosphoglycerate|
L Zelcbuch, M Razo-Mejia, E Herz, S Yahav, N Antonovsky, H Kroytoro, ...
PloS one 10 (3), e0122957, 2015
|Functional reconstitution of a bacterial CO2 concentrating mechanism in Escherichia coli|
AI Flamholz, E Dugan, C Blikstad, S Gleizer, R Ben-Nissan, S Amram, ...
Elife 9, e59882, 2020
|Point mutations in topoisomerase I alter the mutation spectrum in E. coli and impact the emergence of drug resistance genotypes|
A Bachar, E Itzhaki, S Gleizer, M Shamshoom, R Milo, N Antonovsky
Nucleic acids research 48 (2), 761-769, 2020
|Methods of production of products of metabolic pathways|
R Milo, L Zelcbuch, N Antonovsky
US Patent 9,719,122, 2017
|Recombinant microorganisms capable of carbon fixation|
R Milo, N Antonovsky, E Noor, A Bar-Even, Y Zohar, L Zelcbuch, S Gleizer, ...
US Patent 10,294,482, 2019
|Converting air into sugar: the design and in-vivo evolution of an E. coli strain capable using CO2 as a source of biomass production|
G Jona, N Antonovsky, S Gleizer, E Noor, Y Zohar, E Herz, U Barenholz, ...
Recent Advances in Fermentation Technology (RAFT tm), 2017
|Engineering an evolutionary ladder for synthetic carbon fixation|
D Wernick, N Antonovsky, R Milo
New Biotechnology, S14, 2016