2019
DOI: 10.3390/biomedicines7020046
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Protein Nanotubes: From Bionanotech towards Medical Applications

Abstract: Nanobiotechnology involves the study of structures found in nature to construct nanodevices for biological and medical applications with the ultimate goal of commercialization. Within a cell most biochemical processes are driven by proteins and associated macromolecular complexes. Evolution has optimized these protein-based nanosystems within living organisms over millions of years. Among these are flagellin and pilin-based systems from bacteria, viral-based capsids, and eukaryotic microtubules and amyloids. W… Show more

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Cited by 14 publications
(10 citation statements)
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References 143 publications
(202 reference statements)
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“…Such assemblies, apart from mimicking natural pathogens, present additional advantages for vaccine applications, including a small size, which enables localization to the lymph nodes and efficient uptake by APCs [6]. Protein nanorings are usually unilayered discs composed of 7 to 20 protein subunits and have diameters ranging from 8 to 20 nm [73,[89][90][91]. Nanorings are often the building blocks for larger protein assemblies, such as nanotubes.…”
Section: Nanorings Polyhedral Cages and Nanoparticlesmentioning
confidence: 99%
See 3 more Smart Citations
“…Such assemblies, apart from mimicking natural pathogens, present additional advantages for vaccine applications, including a small size, which enables localization to the lymph nodes and efficient uptake by APCs [6]. Protein nanorings are usually unilayered discs composed of 7 to 20 protein subunits and have diameters ranging from 8 to 20 nm [73,[89][90][91]. Nanorings are often the building blocks for larger protein assemblies, such as nanotubes.…”
Section: Nanorings Polyhedral Cages and Nanoparticlesmentioning
confidence: 99%
“…Nanorings are often the building blocks for larger protein assemblies, such as nanotubes. Rings have similar supramolecular organization to those of helical viral capsids [89,90,92]. Such engineered assemblies presenting antigens on one face of the particle have shown an enhanced antibody response, potentially attributed to immune surface receptor clustering and activation, which constitutes a key aspect for the design of nanovaccines [6,93].…”
Section: Nanorings Polyhedral Cages and Nanoparticlesmentioning
confidence: 99%
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“…In addition, they can easily penetrate into the cellular membrane and have better flow dynamics than spherical nanoparticles [14] . Carbon, [15] silica, [16] lipids, [17] proteins, [18] peptides [19] and amino‐acids [20] are the most common materials for the synthesis of nanotube structures in drug delivery and biomedical applications, [21] among which, peptides and amino acids are the primary materials for the fabrication of nanotubes. These types of biomaterials have various advantages over carbon nanotubes; they are soluble in water and can be easily synthesized.…”
Section: Introductionmentioning
confidence: 99%