Folgen
Nikhil Gopalkrishnan
Nikhil Gopalkrishnan
Postdoctoral Fellow, Wyss Institute for Biologically Inspired Engineering at Harvard University
Bestätigte E-Mail-Adresse bei wyss.harvard.edu
Titel
Zitiert von
Zitiert von
Jahr
Programmable autonomous synthesis of single-stranded DNA
JY Kishi, TE Schaus, N Gopalkrishnan, F Xuan, P Yin
Nature chemistry 10 (2), 155-164, 2018
1432018
Localized hybridization circuits
H Chandran, N Gopalkrishnan, A Phillips, J Reif
DNA Computing and Molecular Programming: 17th International Conference, DNA …, 2011
722011
Tapestry: A single-round smart pooling technique for COVID-19 testing
S Ghosh, A Rajwade, S Krishna, N Gopalkrishnan, TE Schaus, ...
MedRxiv, 2020.04. 23.20077727, 2020
592020
Tile complexity of linear assemblies
H Chandran, N Gopalkrishnan, J Reif
SIAM Journal on Computing 41 (4), 1051-1073, 2012
442012
Probabilistic analysis of localized DNA hybridization circuits
N Dalchau, H Chandran, N Gopalkrishnan, A Phillips, J Reif
ACS synthetic biology 4 (8), 898-913, 2015
372015
Improving the performance of DNA strand displacement circuits by shadow cancellation
T Song, N Gopalkrishnan, A Eshra, S Garg, R Mokhtar, H Bui, ...
ACS nano 12 (11), 11689-11697, 2018
222018
Single-strand RPA for rapid and sensitive detection of SARS-CoV-2 RNA
Y Kim, AB Yaseen, JY Kishi, F Hong, SK Saka, K Sheng, N Gopalkrishnan, ...
MedRxiv, 2020
202020
14. Self-Assembled DNA Nanostructures and DNA Devices
JH Reif, H Chandran, N Gopalkrishnan, T LaBean
Nanofabrication handbook, 299, 2012
172012
14. Self-Assembled DNA Nanostructures and DNA Devices
JH Reif, H Chandran, N Gopalkrishnan, T LaBean
Nanofabrication handbook, 299, 2012
172012
Meta-DNA: synthetic biology via DNA nanostructures and hybridization reactions
H Chandran, N Gopalkrishnan, B Yurke, J Reif
Journal of The Royal Society Interface 9 (72), 1637-1653, 2012
112012
Tile complexity of approximate squares
H Chandran, N Gopalkrishnan, J Reif
Algorithmica 66 (1), 1-17, 2013
102013
Directed enzymatic activation of 1-d DNA tiles
S Garg, H Chandran, N Gopalkrishnan, TH LaBean, J Reif
ACS nano 9 (2), 1072-1079, 2015
62015
DNA nanorobotics
H Chandran, N Gopalkrishnan, J Reif
Nanorobotics: Current Approaches and Techniques, 355-382, 2013
62013
A DNA nanoscope that identifies and precisely localizes over a hundred unique molecular features with nanometer accuracy
N Gopalkrishnan, S Punthambaker, TE Schaus, GM Church, P Yin
bioRxiv, 2020.08. 27.271072, 2020
52020
Molecular programming tools
JY Kishi, TE Schaus, P Yin, F Xuan, N Gopalkrishnan, WOO Sungwook
US Patent 11,286,517, 2022
42022
DNA computing, chapter in computing handbook, volume i: Computer science and software engineering, section 3: Architecture and organization, edited by teofilo f. gonzalez
H Bui, H Chandran, S Garg, N Gopalkrishnan, N Gopalkrishnan, ...
Taylor & Francis Group, 2013
42013
Self-assembly of cylinders and Möbius strips by DNA origami
M Gopalkrishnan, N Gopalkrishnan, L Adleman
Preliminary Proceedings of DNA 14, 0
4
Engineering Exquisite Nanoscale Behavior with DNA
N Gopalkrishnan
Duke University, 2012
32012
High-fidelity DNA hybridization using programmable molecular DNA devices
N Gopalkrishnan, H Chandran, J Reif
DNA Computing and Molecular Programming: 16th International Conference, DNA …, 2011
32011
Sequence design for efficient assembly of nucleic acid structures
N Gopalkrishnan, TE Schaus, P Yin
US Patent 11,235,972, 2022
12022
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20