Yutetsu Kuruma
Yutetsu Kuruma
Earth-Life Science Institute
Verified email at - Homepage
Cited by
Cited by
Artificial photosynthetic cell producing energy for protein synthesis
S Berhanu, T Ueda, Y Kuruma
Nature communications 10 (1), 1325, 2019
A synthetic biology approach to the construction of membrane proteins in semi-synthetic minimal cells
Y Kuruma, P Stano, T Ueda, PL Luisi
Biochimica et Biophysica Acta (BBA)-Biomembranes 1788 (2), 567-574, 2009
Protein synthesis in liposomes with a minimal set of enzymes
G Murtas, Y Kuruma, P Bianchini, A Diaspro, PL Luisi
Biochemical and biophysical research communications 363 (1), 12-17, 2007
Compartmentalized reactions as a case of soft-matter biotechnology: synthesis of proteins and nucleic acids inside lipid vesicles
P Stano, P Carrara, Y Kuruma, TP de Souza, PL Luisi
Journal of Materials Chemistry 21 (47), 18887-18902, 2011
The PURE system for the cell-free synthesis of membrane proteins
Y Kuruma, T Ueda
Nature protocols 10 (9), 1328-1344, 2015
Cell‐free translation systems for protein engineering
Y Shimizu, Y Kuruma, BW Ying, S Umekage, T Ueda
The FEBS journal 273 (18), 4133-4140, 2006
Synthetic cells produce a quorum sensing chemical signal perceived by Pseudomonas aeruginosa
G Rampioni, F D’Angelo, M Messina, A Zennaro, Y Kuruma, D Tofani, ...
Chemical communications 54 (17), 2090-2093, 2018
Development of a minimal cell‐free translation system for the synthesis of presecretory and integral membrane proteins
Y Kuruma, K Nishiyama, Y Shimizu, M Müller, T Ueda
Biotechnology progress 21 (4), 1243-1251, 2005
In Vitro Synthesis of the E. coli Sec Translocon from DNA
H Matsubayashi, Y Kuruma, T Ueda
Angewandte Chemie 126 (29), 7665-7668, 2014
De Novo Synthesis of Basal Bacterial Cell Division Proteins FtsZ, FtsA, and ZipA Inside Giant Vesicles
T Furusato, F Horie, HT Matsubayashi, K Amikura, Y Kuruma, T Ueda
ACS synthetic biology 7 (4), 953-961, 2018
Functional analysis of membranous Fo-a subunit of F1Fo-ATP synthase by in vitro protein synthesis
Y Kuruma, T Suzuki, S Ono, M Yoshida, T Ueda
Biochemical Journal 442 (3), 631-638, 2012
UncI protein can mediate ring-assembly of c-subunits of FoF1-ATP synthase in vitro
Y Ozaki, T Suzuki, Y Kuruma, T Ueda, M Yoshida
Biochemical and biophysical research communications 367 (3), 663-666, 2008
Unbiased tracking of the progression of mRNA and protein synthesis in bulk and in liposome‐confined reactions
P van Nies, Z Nourian, M Kok, R van Wijk, J Moeskops, I Westerlaken, ...
ChemBioChem 14 (15), 1963-1966, 2013
The PURE system for protein production
Y Shimizu, Y Kuruma, T Kanamori, T Ueda
Cell-Free Protein Synthesis: Methods and Protocols, 275-284, 2014
CdsA is involved in biosynthesis of glycolipid MPIase essential for membrane protein integration in vivo
K Sawasato, R Sato, H Nishikawa, N Iimura, Y Kamemoto, K Fujikawa, ...
Scientific reports 9 (1), 1372, 2019
Production of Multi-Subunit Complexes on Liposome Through an E. coli Cell-Free Expression System
Y Kuruma, T Suzuki, T Ueda
Cell-Free Protein Production: Methods and Protocols, 161-171, 2010
Phospholipid synthesis inside phospholipid membrane vesicles
S Eto, R Matsumura, Y Shimane, M Fujimi, S Berhanu, T Kasama, ...
Communications Biology 5 (1), 1016, 2022
Biosynthesis of proteins inside liposomes
P Stano, Y Kuruma, TP de Souza, PL Luisi
Liposomes: Methods and Protocols, Volume 2: Biological Membrane Models, 127-145, 2010
A bifunctional polyphosphate kinase driving the regeneration of nucleoside triphosphate and reconstituted cell-free protein synthesis
PH Wang, K Fujishima, S Berhanu, Y Kuruma, TZ Jia, AN Khusnutdinova, ...
ACS Synthetic Biology 9 (1), 36-42, 2019
The bacterial protein YidC accelerates MPIase-dependent integration of membrane proteins
M Sasaki, H Nishikawa, S Suzuki, M Moser, M Huber, K Sawasato, ...
Journal of Biological Chemistry 294 (49), 18898-18908, 2019
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