Search Results - "Mauri, A"

DNA Nanostructures as Smart Drug-Delivery Vehicles and Molecular Devices by Linko, Veikko, Ora, Ari, Kostiainen, Mauri A

“…DNA molecules can be assembled into custom predesigned shapes via hybridization of sequence-complementary domains. The folded structures have high spatial…”
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Properties and chemical modifications of lignin: Towards lignin-based nanomaterials for biomedical applications by Figueiredo, Patrícia, Lintinen, Kalle, Hirvonen, Jouni T., Kostiainen, Mauri A., Santos, Hélder A.

“…Biorenewable polymers have emerged as an attractive alternative to conventional metallic and organic materials for a variety of different applications. This is…”
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Unraveling the interaction between doxorubicin and DNA origami nanostructures for customizable chemotherapeutic drug release by Ijäs, Heini, Shen, Boxuan, Heuer-Jungemann, Amelie, Keller, Adrian, Kostiainen, Mauri A, Liedl, Tim, Ihalainen, Janne A, Linko, Veikko

“…Abstract Doxorubicin (DOX) is a common drug in cancer chemotherapy, and its high DNA-binding affinity can be harnessed in preparing DOX-loaded DNA…”
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Reconfigurable pH-Responsive DNA Origami Lattices by Julin, Sofia, Linko, Veikko, Kostiainen, Mauri A.

“…DNA nanotechnology enables straightforward fabrication of user-defined and nanometer-precise templates for a cornucopia of different uses. To date, most of…”
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Evolution of Structural DNA Nanotechnology by Nummelin, Sami, Kommeri, Juhana, Kostiainen, Mauri A., Linko, Veikko

“…The research field entitled structural DNA nanotechnology emerged in the beginning of the 1980s as the first immobile synthetic nucleic acid junctions were…”
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On the Stability of DNA Origami Nanostructures in Low‐Magnesium Buffers by Kielar, Charlotte, Xin, Yang, Shen, Boxuan, Kostiainen, Mauri A., Grundmeier, Guido, Linko, Veikko, Keller, Adrian

“…DNA origami structures have great potential as functional platforms in various biomedical applications. Many applications, however, are incompatible with the…”
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A modular DNA origami-based enzyme cascade nanoreactor by Linko, Veikko, Eerikäinen, Marika, Kostiainen, Mauri A

“…In this communication, we present a nanoscale reactor assembled from tuneable and spatially addressable tubular DNA origami units. We can controllably combine…”
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Reconfigurable DNA Origami Nanocapsule for pH-Controlled Encapsulation and Display of Cargo by Ijäs, Heini, Hakaste, Iiris, Shen, Boxuan, Kostiainen, Mauri A, Linko, Veikko

“…DNA nanotechnology provides a toolbox for creating custom and precise nanostructures with nanometer-level accuracy. These nano-objects are often static by…”
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Genetically encoded protein crystals by hierarchical design by Anaya-Plaza, Eduardo, Kostiainen, Mauri A.

“…Three protein interaction surfaces are computationally designed into one protein subunit to enable their accurate assembly into three-dimensional crystals with…”
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Electrostatic assembly of binary nanoparticle superlattices using protein cages by Kostiainen, Mauri A., Hiekkataipale, Panu, Laiho, Ari, Lemieux, Vincent, Seitsonen, Jani, Ruokolainen, Janne, Ceci, Pierpaolo

“…Binary nanoparticle superlattices are periodic nanostructures with lattice constants much shorter than the wavelength of light 1 , 2 and could be used to…”
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Chemical Modification of Reducing End‐Groups in Cellulose Nanocrystals by Heise, Katja, Delepierre, Gwendoline, King, Alistair W. T., Kostiainen, Mauri A., Zoppe, Justin, Weder, Christoph, Kontturi, Eero

“…Native plant cellulose has an intrinsic supramolecular structure. Consequently, it can be isolated as nanocellulose species, which can be utilized as building…”
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PD-L1 by Kythreotou, Anthousa, Siddique, Abdul, Mauri, Francesco A, Bower, Mark, Pinato, David J

“…Programmed death ligand 1 (PD-L1) is the principal ligand of programmed death 1 (PD-1), a coinhibitory receptor that can be constitutively expressed or induced…”
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Three-Dimensional Protein Cage Array Capable of Active Enzyme Capture and Artificial Chaperone Activity by Chakraborti, Soumyananda, Korpi, Antti, Kumar, Mantu, Stępień, Piotr, Kostiainen, Mauri A, Heddle, Jonathan G

“…Development of protein cages for encapsulation of active enzyme cargoes and their subsequent arrangement into a controllable three-dimensional array is highly…”
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DNA‐Origami‐Templated Growth of Multilamellar Lipid Assemblies by Julin, Sofia, Nonappa, Shen, Boxuan, Linko, Veikko, Kostiainen, Mauri A.

“…Lipids are important building blocks in cellular compartments, and therefore their self‐assembly into well‐defined hierarchical structures has gained…”
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Self-assembly and modular functionalization of three-dimensional crystals from oppositely charged proteins by Liljeström, Ville, Mikkilä, Joona, Kostiainen, Mauri A.

“…Multicomponent crystals and nanoparticle superlattices are a powerful approach to integrate different materials into ordered nanostructures. Well-developed,…”
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From Precision Colloidal Hybrid Materials to Advanced Functional Assemblies by Linko, Veikko, Zhang, Hang, Nonappa, Kostiainen, Mauri A., Ikkala, Olli

“…Conspectus The concept of colloids encompasses a wide range of isotropic and anisotropic particles with diverse sizes, shapes, and functions from synthetic…”
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Real‐Time Observation of Superstructure‐Dependent DNA Origami Digestion by DNase I Using High‐Speed Atomic Force Microscopy by Ramakrishnan, Saminathan, Shen, Boxuan, Kostiainen, Mauri A., Grundmeier, Guido, Keller, Adrian, Linko, Veikko

“…DNA nanostructures have emerged as intriguing tools for numerous biomedical applications. However, in many of those applications and most notably in drug…”
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Robotic DNA Nanostructures by Nummelin, Sami, Shen, Boxuan, Piskunen, Petteri, Liu, Qing, Kostiainen, Mauri A, Linko, Veikko

“…Over the past decade, DNA nanotechnology has spawned a broad variety of functional nanostructures tailored toward the enabled state at which applications are…”
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Automated design of DNA origami by Linko, Veikko, Kostiainen, Mauri A

“…A top-down computational method enables fabrication of DNA objects in any shape…”
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De novo nanomaterial crystals from DNA frameworks by Linko, Veikko, Kostiainen, Mauri A.

“…Programmable DNA building blocks hosting diverse nano-objects assemble into three-dimensional nanoparticle lattices whose geometry is determined by the shape…”
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