Rationally engineered nucleic acid architectures for biosensing applications M Xiao, W Lai, T Man, B Chang, L Li, AR Chandrasekaran, H Pei Chemical Reviews, 2019 | 215 | 2019 |
Fabrication of a nanofibrous scaffold with improved bioactivity for culture of human dermal fibroblasts for skin regeneration AR Chandrasekaran, J Venugopal, S Sundarrajan, S Ramakrishna Biomedical Materials 6 (1), 015001, 2011 | 198 | 2011 |
Nuclease resistance of DNA nanostructures AR Chandrasekaran Nature Reviews Chemistry 5 (4), 225-239, 2021 | 183 | 2021 |
An update on nanomaterials‐based textiles for protection and decontamination S Sundarrajan, AR Chandrasekaran, S Ramakrishna Journal of the American Ceramic Society 93 (12), 3955-3975, 2010 | 138 | 2010 |
DNA nanocarriers: Programmed to deliver BR Madhanagopal, S Zhang, E Demirel, H Wady, AR Chandrasekaran Trends in Biochemical Sciences 43 (12), 997-1013, 2018 | 114 | 2018 |
DNA nanotechnology approaches for microRNA detection and diagnosis AR Chandrasekaran, JA Punnoose, L Zhou, P Dey, BK Dey, K Halvorsen Nucleic acids research 47 (20), 10489-10505, 2019 | 111 | 2019 |
DNA nanocages AR Chandrasekaran, O Levchenko Chemistry of Materials 28 (16), 5569-5581, 2016 | 103 | 2016 |
Beyond the fold: Emerging biological applications of DNA origami AR Chandrasekaran, N Anderson, M Kizer, K Halvorsen, X Wang ChemBioChem 17 (12), 1081-1089, 2016 | 100 | 2016 |
Affinity-modulated molecular beacons on MoS2 nanosheets for microRNA detection M Xiao, AR Chandrasekaran, W Ji, F Li, T Man, C Zhu, X Shen, H Pei, Q Li, ... ACS Applied Materials & Interfaces 10 (42), 35794-35800, 2018 | 94 | 2018 |
Triplex-forming oligonucleotides: a third strand for DNA nanotechnology AR Chandrasekaran, DA Rusling Nucleic Acids Research 46 (3), 1021-1037, 2017 | 87 | 2017 |
Paranemic crossover DNA: there and back again X Wang, AR Chandrasekaran, Z Shen, YP Ohayon, T Wang, ME Kizer, ... Chemical Reviews, 2018 | 77 | 2018 |
Addressable configurations of DNA nanostructures for rewritable memory AR Chandrasekaran, O Levchenko, DS Patel, M MacIsaac, K Halvorsen Nucleic Acids Research 45 (19), 11459-11465, 2017 | 76 | 2017 |
Cellular microRNA detection with miRacles: microRNA-activated conditional looping of engineered switches AR Chandrasekaran, M MacIsaac, P Dey, L Zhou, M Andres, BK Dey, ... Science Advances 5 (3), eaau9443, 2019 | 75 | 2019 |
Functionalizing designer DNA crystals with a triple‐helical veneer DA Rusling, AR Chandrasekaran, YP Ohayon, T Brown, KR Fox, R Sha, ... Angewandte Chemie International Edition 53 (15), 3979-3982, 2014 | 71 | 2014 |
Programmable DNA scaffolds for spatially-ordered protein assembly AR Chandrasekaran Nanoscale 8, 4436-4446, 2016 | 70 | 2016 |
DNA-based construction at the nanoscale: emerging trends and applications PL Xavier, AR Chandrasekaran Nanotechnology 29 (6), 062001, 2018 | 68 | 2018 |
Programmable DNA nanoswitches for detection of nucleic acid sequences AR Chandrasekaran, J Zavala, K Halvorsen ACS Sensors 1 (2), 120-123, 2016 | 65 | 2016 |
Post‐assembly stabilization of rationally designed DNA crystals J Zhao, AR Chandrasekaran, Q Li, X Li, R Sha, NC Seeman, C Mao Angewandte Chemie International Edition 54 (34), 9936-9939, 2015 | 61 | 2015 |
Exceptional nuclease resistance of paranemic crossover (PX) DNA and crossover-dependent biostability of DNA motifs AR Chandrasekaran, J Vilcapoma, P Dey, SW Wong-Deyrup, BK Dey, ... Journal of the American Chemical Society, 2020 | 57 | 2020 |
Self-assembled DNA crystals: the impact on resolution of 5′-phosphates and the DNA source R Sha, JJ Birktoft, N Nguyen, AR Chandrasekaran, J Zheng, X Zhao, ... Nano Letters 13 (2), 793-797, 2013 | 55 | 2013 |