Publications and Presentations

  • Bhatia, D, Sharma, S and Krishnan, Y*. Synthetic, biofunctional nucleic acid-based molecular devices. Curr Opin Biotechnol, 2011, 22, 475-484
  • Surana, S, Bhat, JM, Koushika, SP and Krishnan, Y*. An autonomous DNA nanomachine maps spatiotemporal pH changes in a multicellular living organism. Nature Commun, 2011, 2, 340.
  • Saha, S, Chakraborty, K and Krishnan, Y*. Tunable, colorimetric DNA based pH sensors mediated by A-motif formation. Chem. Commun. 2012, 48, 2513.
  • Chakraborty, S., Mehtab, S., Patwardhan, A.R., Krishnan, Y*. Pri-miR-17-92a Transcript folds into a tertiary structure and autoregulates its processing. RNA. 2012, 18, 1014-1028.
  • Krishnan, Y*, Bathe, M*. Designer nucleic acids to probe and program the cell. Trends Cell Biol.  2012, 22, 624-633.
  • Banerjee, A, Bhatia, D, Saminathan, A, Chakraborty, S, Kar, S and Krishnan, Y. Controlled release of encapsulated cargo from a DNA icosahedron using a chemical trigger. Angew Chem Int Ed. 2013, 52, 6854-6857.
  • Surana, S and Krishnan, Y*. A method to map spatiotemporal pH changes in a multicellular living organism using a DNA nanosensor. Methods Mol Biol. 2013, 991, 9-23.
  • Surana, S, Bhatia, D and Krishnan, Y*. A method to study in vivo stability of DNA nanostructures. Methods,2013, 64, 94-100.
  • Modi, S, Nizak, C, Surana, S, Halder, S and Krishnan, Y*. Two DNA nanomachines map pH changes along intersecting endocytic pathways inside the same cell. Nature Nanotechnol. 2013,8, 459-467.
  • Modi, S, Halder, S, Nizak, C* and Krishnan, Y*. Recombinant antibody mediated delivery of organellespecific DNA pH sensors along endocytic pathways. Nanoscale, 2014, 6, 1144-1152.
  • Chakraborty, S, Mehtab, S, Krishnan, Y*. The predictive power of synthetic Nucleic Acid Technologies in RNA Biology. Acc Chem Res. Accepted 2014.