TY - JOUR
T1 - Orthogonal Operation of Constitutional Dynamic Networks Consisting of DNA-Tweezer Machines
AU - Yue, Liang
AU - Wang, Shan
AU - Cecconello, Alessandro
AU - Lehn, Jean Marie
AU - Willner, Itamar
N1 - Publisher Copyright:
© 2017 American Chemical Society.
PY - 2017/12/26
Y1 - 2017/12/26
N2 - Overexpression or down-regulation of cellular processes are often controlled by dynamic chemical networks. Bioinspired by nature, we introduce constitutional dynamic networks (CDNs) as systems that emulate the principle of the nature processes. The CDNs comprise dynamically interconvertible equilibrated constituents that respond to external triggers by adapting the composition of the dynamic mixture to the energetic stabilization of the constituents. We introduce a nucleic acid-based CDN that includes four interconvertible and mechanically triggered tweezers, AA′, BB′, AB′ and BA′, existing in closed, closed, open, and open configurations, respectively. By subjecting the CDN to auxiliary triggers, the guided stabilization of one of the network constituents dictates the dynamic reconfiguration of the structures of the tweezers constituents. The orthogonal and reversible operations of the CDN DNA tweezers are demonstrated, using T-A·T triplex or K+-stabilized G-quadruplex as structural motifs that control the stabilities of the constituents. The implications of the study rest on the possible applications of input-guided CDN assemblies for sensing, logic gate operations, and programmed activation of molecular machines.
AB - Overexpression or down-regulation of cellular processes are often controlled by dynamic chemical networks. Bioinspired by nature, we introduce constitutional dynamic networks (CDNs) as systems that emulate the principle of the nature processes. The CDNs comprise dynamically interconvertible equilibrated constituents that respond to external triggers by adapting the composition of the dynamic mixture to the energetic stabilization of the constituents. We introduce a nucleic acid-based CDN that includes four interconvertible and mechanically triggered tweezers, AA′, BB′, AB′ and BA′, existing in closed, closed, open, and open configurations, respectively. By subjecting the CDN to auxiliary triggers, the guided stabilization of one of the network constituents dictates the dynamic reconfiguration of the structures of the tweezers constituents. The orthogonal and reversible operations of the CDN DNA tweezers are demonstrated, using T-A·T triplex or K+-stabilized G-quadruplex as structural motifs that control the stabilities of the constituents. The implications of the study rest on the possible applications of input-guided CDN assemblies for sensing, logic gate operations, and programmed activation of molecular machines.
KW - DNAzyme
KW - G-quadruplex
KW - nanobiotechnology
KW - nucleic acid
KW - strand displacement
KW - supramolecular structure
KW - triplex
UR - http://www.scopus.com/inward/record.url?scp=85040067581&partnerID=8YFLogxK
U2 - 10.1021/acsnano.7b04557
DO - 10.1021/acsnano.7b04557
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C2 - 29140681
AN - SCOPUS:85040067581
SN - 1936-0851
VL - 11
SP - 12027
EP - 12036
JO - ACS Nano
JF - ACS Nano
IS - 12
ER -