pH-driven actuation of DNA origami via parallel I-motif sequences in solution and on surfaces

JM Majikes, LCC Ferraz, TH LaBean - Bioconjugate Chemistry, 2017 - ACS Publications
As bottom up DNA nanofabrication creates increasingly complex and dynamic mechanisms,
the implementation of actuators within the DNA nanotechnology toolkit has grown …
被引用次数:25 相关文章

pH-Driven Actuation of DNA Origami via Parallel I‑Motif Sequences in Solution and on Surfaces

JM Majikes, LCC Ferraz, TH LaBean - Bioconjugate Chemistry, 2017 - Elsevier
As bottom up DNA nanofabrication creates increasingly complex and dynamic mechanisms,
the implementation of actuators within the DNA nanotechnology toolkit has grown …

pH-Driven Actuation of DNA Origami via Parallel I-Motif Sequences in Solution and on Surfaces

JM Majikes, LCC Ferraz… - Bioconjugate …, 2017 - pubmed.ncbi.nlm.nih.gov
As bottom up DNA nanofabrication creates increasingly complex and dynamic mechanisms,
the implementation of actuators within the DNA nanotechnology toolkit has grown …

pH-Driven Actuation of DNA Origami via Parallel I-Motif Sequences in Solution and on Surfaces.

JM Majikes, LCC Ferraz, TH LaBean - Bioconjugate Chemistry, 2017 - europepmc.org
As bottom up DNA nanofabrication creates increasingly complex and dynamic mechanisms,
the implementation of actuators within the DNA nanotechnology toolkit has grown …
[PDF] nsf.gov

[PDF][PDF] pH-Driven Actuation of DNA Origami via Parallel I-Motif Sequences in Solution and on Surfaces

JM Majikes, LC Ferraz, TH LaBean - Bioconjugate Chemistry, 2017 - par.nsf.gov
As bottom up DNA nanofabrication creates increasingly complex and dynamic mechanisms,
the implementation of actuators within the DNA nanotechnology toolkit has grown …