Team:Slovenia/Prospects and vision.html
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- | ===Next steps== | + | <font size="3" color="#009ee0"><b>Discussion</b></font> |
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We have demonstrated the feasibility of the underlying ideas by proving the concept on selected examples. Particularly structural characterization and characterization of other properties of the assembled structures will require additional controls but the experimental results that we have obtained so far seem to us very encouraging. | We have demonstrated the feasibility of the underlying ideas by proving the concept on selected examples. Particularly structural characterization and characterization of other properties of the assembled structures will require additional controls but the experimental results that we have obtained so far seem to us very encouraging. | ||
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- | + | ==The Vision== | |
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<font face="impact" size="6"><b>Imagine</b></font> that we could achieve the <b>level of miniaturization, precision, error correction, energetic efficiency</b> and <b>sustainability</b> of natural processes in manufacturing materials and devices that we use every day, such as electronic devices, cars, buildings and other gadgets that we use. | <font face="impact" size="6"><b>Imagine</b></font> that we could achieve the <b>level of miniaturization, precision, error correction, energetic efficiency</b> and <b>sustainability</b> of natural processes in manufacturing materials and devices that we use every day, such as electronic devices, cars, buildings and other gadgets that we use. | ||
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Creation of polyhedra and different types of lattices is the first step towards building even more complex structures that may not require high symmetry. Now nanoscale scaffolds in combination with positioning selected side chains be used in a variety of different applications, but unrestricted by the evolution and <b>limited only by our knowledge and imagination</b>. | Creation of polyhedra and different types of lattices is the first step towards building even more complex structures that may not require high symmetry. Now nanoscale scaffolds in combination with positioning selected side chains be used in a variety of different applications, but unrestricted by the evolution and <b>limited only by our knowledge and imagination</b>. | ||
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- polypeptides can form <b>nano-cages</b> for delivery of molecules such as drugs (proteins or smaller compounds), dyes, | - polypeptides can form <b>nano-cages</b> for delivery of molecules such as drugs (proteins or smaller compounds), dyes, | ||
- | - <b>advanced biomaterials</b> for cell growth and tissue modeling/regeneration based on combinations of different functional proteins that can be selected from the library | + | - <b>advanced biomaterials</b> for cell growth and tissue modeling/regeneration based on combinations of different functional proteins that can be selected from the library, |
- | - <b>separation devices</b> that can separate molecules according to many different properties | + | - <b>separation devices</b> that can separate molecules according to many different properties, |
- | - biosensors, where we can separate the analyzed molecules according to their size or we can attach functional groups imparting specific interactions | + | - biosensors, where we can separate the analyzed molecules according to their size or we can attach functional groups imparting specific interactions. |
We have demonstrated structure and properties of isolated protein, however we can | We have demonstrated structure and properties of isolated protein, however we can | ||
- | <font face="impact" size="6"><b>imagine</b></font> that those polypeptides may be able to self-assemble within or at the surface of living cells and provide some health benefits, such as attachment of different targets, interface with nanosensors etc. | + | <font face="impact" size="6"><b>imagine</b></font> that those polypeptides may be able to self-assemble within or at the surface of living cells and provide some health benefits, such as attachment of different targets, interface with nanosensors, etc. |
Latest revision as of 03:03, 22 October 2009
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Next steps
The Vision
- polypeptides can form nano-cages for delivery of molecules such as drugs (proteins or smaller compounds), dyes, - advanced biomaterials for cell growth and tissue modeling/regeneration based on combinations of different functional proteins that can be selected from the library, - separation devices that can separate molecules according to many different properties, - biosensors, where we can separate the analyzed molecules according to their size or we can attach functional groups imparting specific interactions. We have demonstrated structure and properties of isolated protein, however we can imagine that those polypeptides may be able to self-assemble within or at the surface of living cells and provide some health benefits, such as attachment of different targets, interface with nanosensors, etc.
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