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Biopolyester Particles. The principal idea is: Novel plastic material.

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Presentation on theme: "Biopolyester Particles. The principal idea is: Novel plastic material."— Presentation transcript:

1 Biopolyester Particles

2 The principal idea is:

3 Novel plastic material

4 The Idea is: Exposure over 45 days:

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7 Inclusions in MOs Inorganic Inclusions: – Magnetosomes Organic Inclusions: – Biopolyester granules (PHA)

8 Production of Inclusions The key enzymes are the polyester synthases PHA synthases: These enzymes catalyse the enantioselective conversion of (R)-3- hydroxyacylCoA substrates to PHAs In this process CoA is released again 88 synthases are cloned and characterised

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12 PHA producing bacteria

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14 Production of Inclusions PHAs are produced: – When Carbon sources are available in surplus – When other nutrients are limiting PHAs are stored in the cells as water insoluble particles inside the cell. Who is producing PHAs: – Eubacteria – Archea

15 Why do these bacteria produce PHAs? PHAs are produced as intracellular storage Upon carbon source starvation the polymers are being mobilised again Enzymes used for this: – PHA Depolymerases Location of the enzymes: – On the surfaces of the granules

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21 PHA metabolism and its macro regulation

22 Important carbon sources for growth and PHA production

23 Biopolyester

24 PHAs potential applications Size, core composition and surface functionality can be taylored Functionalised nanoparticles Biocompatible, biodegradable Drug delivery Protein immobilisation diagnostics

25 PHAs applications Thermoplastic properties Packaging industry Medicine Pharmacy Agriculture Food industry Raw material for enantiomerically pure chemicals

26 Structure and Properties of 2 Major PHAs

27 The 4 Main groups of PHA synthase

28 Genetics of PHA synthases

29 Polyester synthese

30 Metabolic routes for Polyester biosynthesis

31 Polyester inclusion self assembly and structure

32 Taylor made Biopolyester particles

33 PHA production

34 Production of fusion proteins

35 PHB chips for immunoassays

36 µContact Printing

37 Micro patterning

38 Long term stability of printed fusion protein

39 Confocal image of Fusion protein µCP onto PHA surfaces

40 PHA coated SPR chips

41 41 © 2005 Nokia YN 10.10.2006 Trends for Plastic Materials Raw Material shortage – Polymers from renewable raw materials will become important Current examples like – PHA (polyhydroxyalkanoate) grown in genetically modified corn plant leaves – PLA (polylactide) produced by the fermentation of sugars extracted from plants – PHB (polyhydroxybutyrate) produced by bacteria. New synthesis methods of old polymers like PA11 will be established : example PA11 derived from castor plant–based renewable resources – Protein polymers Extreme mechanical properties Protein polymers are synthetic proteins created "from scratch" through chemical DNA (gene) synthesis, and produced in quantity by traditional large-scale microbial fermentation methods Through genetic engineering, it will be possible to tailor the physical structure and biological characteristics of protein polymers to achieve required properties Due to their synthetic design, protein polymers are capable of combining the biological functionality of natural proteins with the chemical functionality and exceptional physical properties of synthetic polymers

42 Materials technology in a key role Materials technology as a potential enabler for: – Enhanced user experience – New functionality – New form factors – Improvements in production efficiency – New solutions for energy management, data storage Need multi-disciplinary research – materials, mechanics, memory, electronics, energy Considerations for environmental sustainability, volume production

43 43 © 2005 Nokia YN 10.10.2006 Trends for Plastic Materials Tailoring of properties is made through additive technologies – Old property fine tuning with additives like internal lubrication, thermal conductivity, and static dissipation – smart plastics with additives Tunable electrical properties Polymer magnets Shape memory plastics Tunable friction properties – Nano Technologies … Biodegration – Controlled biodegradation will be used in many new applications Food preservation Explosives Security


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