Motility of an autonomous protein-based artificial motor that operates via a burnt-bridge principle
Inspired by biology, great progress has been made in creating artificial molecular motors.
However, the dream of harnessing proteins–the building blocks selected by nature–to …
However, the dream of harnessing proteins–the building blocks selected by nature–to …
The potential of myosin and actin in nanobiotechnology
A Månsson - Journal of Cell Science, 2023 - journals.biologists.com
Since the late 1990s, efforts have been made to utilize cytoskeletal filaments, propelled by
molecular motors, for nanobiotechnological applications, for example, in biosensing and …
molecular motors, for nanobiotechnological applications, for example, in biosensing and …
Exploitation of engineered light-switchable myosin XI for nanotechnological applications
For certain nanotechnological applications of the contractile proteins actin and myosin, eg.,
in biosensing and network-based biocomputation, it would be desirable to temporarily …
in biosensing and network-based biocomputation, it would be desirable to temporarily …
Solving the 3‐Satisfiability Problem Using Network‐Based Biocomputation
J Zhu, A Salhotra, CR Meinecke… - Advanced Intelligent …, 2022 - Wiley Online Library
The 3‐satisfiability Problem (3‐SAT) is a demanding combinatorial problem that is of central
importance among the nondeterministic polynomial (NP) complete problems, with …
importance among the nondeterministic polynomial (NP) complete problems, with …
Nanolithographic Fabrication Technologies for Network-Based Biocomputation Devices
CR Meinecke, G Heldt, T Blaudeck, FW Lindberg… - Materials, 2023 - mdpi.com
Network-based biocomputation (NBC) relies on accurate guiding of biological agents
through nanofabricated channels produced by lithographic patterning techniques. Here, we …
through nanofabricated channels produced by lithographic patterning techniques. Here, we …
Error-rate reduction in network-based biocomputation
Network-based biocomputation (NBC) is an alternative parallel computing paradigm that
encodes combinatorial problems into a nanofabricated device's graphical network of …
encodes combinatorial problems into a nanofabricated device's graphical network of …
[PDF][PDF] Nanodevice development for network-based biocomputation: Scaling up and performance optimization
P Surendiran - 2023 - portal.research.lu.se
The combinatorial nature of several practically important mathematical problems, including
nondeterministic polynomial-time (NP) complete problems, makes it necessary to search …
nondeterministic polynomial-time (NP) complete problems, makes it necessary to search …
The Lawnmower: an autonomous, protein-based artificial molecular motor
Inspired by biology, great progress has been made in creating artificial molecular motors.
However, the dream of harnessing proteins-the building blocks selected by Nature-to design …
However, the dream of harnessing proteins-the building blocks selected by Nature-to design …
Improved longevity of actomyosin in vitro motility assays for sustainable lab-on-a-chip applications
In the in vitro motility assay (IVMA), actin filaments are observed while propelled by surface-
adsorbed myosin motor fragments such as heavy meromyosin (HMM). In addition to …
adsorbed myosin motor fragments such as heavy meromyosin (HMM). In addition to …
[PDF][PDF] Nanolithographic Fabrication Technologies for Network-Based Biocomputation Devices. Materials 2023, 16, 1046
CR Meinecke, G Heldt, T Blaudeck, FW Lindberg… - 2023 - academia.edu
Network-based biocomputation (NBC) relies on accurate guiding of biological agents
through nanofabricated channels produced by lithographic patterning techniques. Here, we …
through nanofabricated channels produced by lithographic patterning techniques. Here, we …