ATP as a biological hydrotrope A Patel, L Malinovska, S Saha, J Wang, S Alberti, Y Krishnan, AA Hyman Science 356 (6339), 753-756, 2017 | 804 | 2017 |
A DNA nanomachine that maps spatial and temporal pH changes inside living cells S Modi, S MG, D Goswami, GD Gupta, S Mayor, Y Krishnan Nature nanotechnology 4 (5), 325-330, 2009 | 778 | 2009 |
Nucleic acid based molecular devices Y Krishnan, FC Simmel Angewandte Chemie International Edition 50 (14), 3124-3156, 2011 | 601 | 2011 |
Two DNA nanomachines map pH changes along intersecting endocytic pathways inside the same cell S Modi, C Nizak, S Surana, S Halder, Y Krishnan Nature nanotechnology 8 (6), 459-467, 2013 | 328 | 2013 |
First report of phase selective gelation of oil from oil/water mixtures. Possible implications toward containing oil spills S Bhattacharya, Y Krishnan-Ghosh Chemical Communications, 185-186, 2001 | 269 | 2001 |
An autonomous DNA nanomachine maps spatiotemporal pH changes in a multicellular living organism S Surana, JM Bhat, SP Koushika, Y Krishnan Nature communications 2 (1), 340, 2011 | 256 | 2011 |
A synthetic icosahedral DNA-based host–cargo complex for functional in vivo imaging D Bhatia, S Surana, S Chakraborty, SP Koushika, Y Krishnan Nature communications 2 (1), 339, 2011 | 249 | 2011 |
Icosahedral DNA nanocapsules by modular assembly D Bhatia, S Mehtab, R Krishnan, SS Indi, A Basu, Y Krishnan Angewandte Chemie International Edition 48 (23), 4134-4137, 2009 | 249 | 2009 |
Designing DNA nanodevices for compatibility with the immune system of higher organisms S Surana, AR Shenoy, Y Krishnan Nature nanotechnology 10 (9), 741-747, 2015 | 222 | 2015 |
A pH-independent DNA nanodevice for quantifying chloride transport in organelles of living cells S Saha, V Prakash, S Halder, K Chakraborty, Y Krishnan Nature nanotechnology 10 (7), 645-651, 2015 | 209 | 2015 |
Molecular mechanism of physical gelation of hydrocarbons by fatty acid amides of natural amino acids A Pal, YK Ghosh, S Bhattacharya Tetrahedron 63 (31), 7334-7348, 2007 | 173 | 2007 |
Quantum dot-loaded monofunctionalized DNA icosahedra for single-particle tracking of endocytic pathways D Bhatia, S Arumugam, M Nasilowski, H Joshi, C Wunder, V Chambon, ... Nature nanotechnology 11 (12), 1112-1119, 2016 | 165 | 2016 |
A DNA nanomachine chemically resolves lysosomes in live cells KH Leung, K Chakraborty, A Saminathan, Y Krishnan Nature nanotechnology 14 (2), 176-183, 2019 | 160 | 2019 |
The poly dA helix: a new structural motif for high performance DNA-based molecular switches S Chakraborty, S Sharma, PK Maiti, Y Krishnan Nucleic acids research 37 (9), 2810-2817, 2009 | 159 | 2009 |
Nature of linkage between the cationic headgroup and cholesteryl skeleton controls gene transfection efficiency YK Ghosh, SS Visweswariah, S Bhattacharya FEBS letters 473 (3), 341-344, 2000 | 158 | 2000 |
Controlled release of encapsulated cargo from a DNA icosahedron using a chemical trigger A Banerjee, D Bhatia, A Saminathan, S Chakraborty, S Kar, Y Krishnan Angew. Chem. Int. Ed 52 (27), 6854-6857, 2013 | 144 | 2013 |
Nucleic acid–based nanodevices in biological imaging K Chakraborty, AT Veetil, SR Jaffrey, Y Krishnan Annual Review of Biochemistry 85 (1), 349-373, 2016 | 136 | 2016 |
A pH-correctable, DNA-based fluorescent reporter for organellar calcium N Narayanaswamy, K Chakraborty, A Saminathan, E Zeichner, KH Leung, ... Nature methods 16 (1), 95-102, 2019 | 134 | 2019 |
High lumenal chloride in the lysosome is critical for lysosome function K Chakraborty, KH Leung, Y Krishnan elife 6, e28862, 2017 | 125 | 2017 |
Formation of an interlocked quadruplex dimer by d (GGGT) Y Krishnan-Ghosh, D Liu, S Balasubramanian Journal of the American Chemical Society 126 (35), 11009-11016, 2004 | 120 | 2004 |