Articles with public access mandates - ichiro hiraoLearn more
Not available anywhere: 3
Visual detection of amplified DNA by polymerase chain reaction using a genetic alphabet expansion system
R Yamashige, M Kimoto, R Okumura, I Hirao
Journal of the American Chemical Society 140 (43), 14038-14041, 2018
Mandates: A*Star, Singapore
Evolving aptamers with unnatural base pairs
M Kimoto, K Matsunaga, I Hirao
Current Protocols in Chemical Biology 9 (4), 315-339, 2017
Mandates: A*Star, Singapore
Phosphoserine aminoacylation of tRNA bearing an unnatural base anticodon
R Fukunaga, Y Harada, I Hirao, S Yokoyama
Biochemical and biophysical research communications 372 (3), 480-485, 2008
Mandates: US National Institutes of Health
Available somewhere: 26
Generation of high-affinity DNA aptamers using an expanded genetic alphabet
M Kimoto, R Yamashige, K Matsunaga, S Yokoyama, I Hirao
Nature biotechnology 31 (5), 453-457, 2013
Mandates: US National Institutes of Health
Genetic alphabet expansion technology by creating unnatural base pairs
M Kimoto, I Hirao
Chemical Society Reviews 49 (21), 7602-7626, 2020
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Post-ExSELEX stabilization of an unnatural-base DNA aptamer targeting VEGF165 toward pharmaceutical applications
M Kimoto, M Nakamura, I Hirao
Nucleic Acids Research 44 (15), 7487-7494, 2016
Mandates: A*Star, Singapore
Architecture of high-affinity unnatural-base DNA aptamers toward pharmaceutical applications
K Matsunaga, M Kimoto, C Hanson, M Sanford, HA Young, I Hirao
Scientific reports 5 (1), 18478, 2015
Mandates: US National Institutes of Health
Molecular affinity rulers: systematic evaluation of DNA aptamers for their applicabilities in ELISA
M Kimoto, YW Shermane Lim, I Hirao
Nucleic acids research 47 (16), 8362-8374, 2019
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Creation of unnatural base pairs for genetic alphabet expansion toward synthetic xenobiology
K Hamashima, M Kimoto, I Hirao
Current opinion in chemical biology 46, 108-114, 2018
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Genetic alphabet expansion biotechnology by creating unnatural base pairs
KH Lee, K Hamashima, M Kimoto, I Hirao
Current opinion in biotechnology 51, 8-15, 2018
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Genetic alphabet expansion provides versatile specificities and activities of unnatural-base DNA aptamers targeting cancer cells
K Futami, M Kimoto, YWS Lim, I Hirao
Molecular Therapy-Nucleic Acids 14, 158-170, 2019
Mandates: A*Star, Singapore
DNA aptamer generation by ExSELEX using genetic alphabet expansion with a mini-hairpin DNA stabilization method
I Hirao, M Kimoto, KH Lee
Biochimie 145, 15-21, 2018
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Structural basis for expansion of the genetic alphabet with an artificial nucleobase pair
K Betz, M Kimoto, K Diederichs, I Hirao, A Marx
Angewandte Chemie International Edition 56 (39), 12000-12003, 2017
Mandates: German Research Foundation, A*Star, Singapore
High-affinity five/six-letter DNA aptamers with superior specificity enabling the detection of dengue NS1 protein variants beyond the serotype identification
K Matsunaga, M Kimoto, VW Lim, HP Tan, YQ Wong, W Sun, S Vasoo, ...
Nucleic Acids Research 49 (20), 11407-11424, 2021
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Genetic alphabet expansion transcription generating functional RNA molecules containing a five-letter alphabet including modified unnatural and natural base nucleotides by …
M Kimoto, AJ Meyer, I Hirao, AD Ellington
Chemical Communications 53 (91), 12309-12312, 2017
Mandates: US National Institutes of Health, A*Star, Singapore
DNA sequencing method including unnatural bases for DNA aptamer generation by genetic alphabet expansion
K Hamashima, YT Soong, K Matsunaga, M Kimoto, I Hirao
ACS Synthetic Biology 8 (6), 1401-1410, 2019
Mandates: A*Star, Singapore, National Research Foundation, Singapore
Site-specific incorporation of extra components into RNA by transcription using unnatural base pair systems
M Kimoto, I Hirao
In Vitro Mutagenesis Protocols: Third Edition, 355-369, 2010
Mandates: US National Institutes of Health
Structural basis of transcription recognition of a hydrophobic unnatural base pair by T7 RNA polymerase
J Oh, M Kimoto, H Xu, J Chong, I Hirao, D Wang
Nature Communications 14 (1), 195, 2023
Mandates: US Department of Energy, US National Institutes of Health, A*Star, Singapore
Dye‐Conjugated Spinach RNA by Genetic Alphabet Expansion
KH Lee, M Kimoto, G Kawai, I Okamoto, A Fin, I Hirao
Chemistry–A European Journal 28 (16), e202104396, 2022
Mandates: A*Star, Singapore
Genetic code engineering by natural and unnatural base pair systems for the site-specific incorporation of non-standard amino acids into proteins
M Kimoto, I Hirao
Frontiers in molecular biosciences 9, 851646, 2022
Mandates: A*Star, Singapore
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