Neil Dalchau
Neil Dalchau
Synteny Biotechnology
Verified email at - Homepage
Cited by
Cited by
Programmable chemical controllers made from DNA
YJ Chen, N Dalchau, N Srinivas, A Phillips, L Cardelli, D Soloveichik, ...
Nature nanotechnology 8 (10), 755-762, 2013
A spatially localized architecture for fast and modular DNA computing
G Chatterjee, N Dalchau, RA Muscat, A Phillips, G Seelig
Nature nanotechnology 12 (9), 920-927, 2017
Modulation of environmental responses of plants by circadian clocks
CT Hotta, MJ Gardner, KE Hubbard, SJ Baek, N Dalchau, D Suhita, ...
Plant, cell & environment 30 (3), 333-349, 2007
DNA-based communication in populations of synthetic protocells
A Joesaar, S Yang, B Bögels, A van der Linden, P Pieters, BP Kumar, ...
Nature nanotechnology 14 (4), 369-378, 2019
The circadian oscillator gene GIGANTEA mediates a long-term response of the Arabidopsis thaliana circadian clock to sucrose
N Dalchau, SJ Baek, HM Briggs, FC Robertson, AN Dodd, MJ Gardner, ...
Proceedings of the National Academy of Sciences 108 (12), 5104, 2011
The Arabidopsis circadian clock incorporates a cADPR-based feedback loop
AN Dodd, MJ Gardner, CT Hotta, KE Hubbard, N Dalchau, J Love, ...
Science 318 (5857), 1789, 2007
Disruption of two defensive signaling pathways by a viral RNA silencing suppressor
MG Lewsey, AM Murphy, D MacLean, N Dalchau, JH Westwood, ...
Molecular plant-microbe interactions 23 (7), 835-845, 2010
Predicting DNA hybridization kinetics from sequence
JX Zhang, JZ Fang, W Duan, LR Wu, AW Zhang, N Dalchau, B Yordanov, ...
Nature chemistry 10 (1), 91-98, 2018
Orthogonal intercellular signaling for programmed spatial behavior
PK Grant, N Dalchau, JR Brown, F Federici, TJ Rudge, B Yordanov, ...
Molecular systems biology 12 (1), 849, 2016
Correct biological timing in Arabidopsis requires multiple light-signaling pathways
N Dalchau, KE Hubbard, FC Robertson, CT Hotta, HM Briggs, GB Stan, ...
Proceedings of the National Academy of Sciences 107 (29), 13171-13176, 2010
The cell biology of major histocompatibility complex class I assembly: towards a molecular understanding
A Van Hateren, E James, A Bailey, A Phillips, N Dalchau, T Elliott
Tissue Antigens 76 (4), 259-275, 2010
Scaling up genetic circuit design for cellular computing: advances and prospects
Y Xiang, N Dalchau, B Wang
Natural computing 17 (4), 833-853, 2018
Selector function of MHC I molecules is determined by protein plasticity
A Bailey, N Dalchau, R Carter, S Emmott, A Phillips, JM Werner, T Elliott
Scientific reports 5 (1), 14928, 2015
The circadian clock has transient plasticity of period and is required for timing of nocturnal processes in A rabidopsis
AN Dodd, N Dalchau, MJ Gardner, SJ Baek, AAR Webb
New Phytologist 201 (1), 168-179, 2014
Characterization of intrinsic properties of promoters
TJ Rudge, JR Brown, F Federici, N Dalchau, A Phillips, JW Ajioka, ...
ACS synthetic biology 5 (1), 89-98, 2016
Ten simple rules for effective computational research
JM Osborne, MO Bernabeu, M Bruna, B Calderhead, J Cooper, ...
PLoS Computational Biology 10 (3), e1003506, 2014
Conditional sanctioning in a legume–Rhizobium mutualism
A Westhoek, LJ Clark, M Culbert, N Dalchau, M Griffiths, B Jorrin, ...
Proceedings of the National Academy of Sciences 118 (19), e2025760118, 2021
Computing with biological switches and clocks
N Dalchau, G Szép, R Hernansaiz-Ballesteros, CP Barnes, L Cardelli, ...
Natural computing 17 (4), 761-779, 2018
A deep learning model for predicting next-generation sequencing depth from DNA sequence
JX Zhang, B Yordanov, A Gaunt, MX Wang, P Dai, YJ Chen, K Zhang, ...
Nature communications 12 (1), 4387, 2021
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
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