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Nanoscale Biopolymers with Customizable Properties for Heavy Metal Remediation U Loi (Ann) Lao, Giri Prabhukumar, Jan Kostal, Mark Matsumoto, Ashok Mulchandani,

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Presentation on theme: "Nanoscale Biopolymers with Customizable Properties for Heavy Metal Remediation U Loi (Ann) Lao, Giri Prabhukumar, Jan Kostal, Mark Matsumoto, Ashok Mulchandani,"— Presentation transcript:

1 Nanoscale Biopolymers with Customizable Properties for Heavy Metal Remediation U Loi (Ann) Lao, Giri Prabhukumar, Jan Kostal, Mark Matsumoto, Ashok Mulchandani, and Wilfred Chen Chemical and Environmental Engineering University of California, Riverside

2 Heavy Metal Contamination 2.4 million tons of metal wastes per year from industrial sources 2.4 million tons of metal wastes per year from industrial sources 2 million tons per year from agriculture and domestic waste 2 million tons per year from agriculture and domestic waste Pb 2+, Hg 2+ and Cd 2+ are ranked 2nd, 3rd and 7th, respectively, on the EPA ’ s priority list Pb 2+, Hg 2+ and Cd 2+ are ranked 2nd, 3rd and 7th, respectively, on the EPA ’ s priority list

3 Metal Chelating Polymers Requires toxic solvents for synthesis Ultrafiltration is required Membrane clogging Solution: Develop metal-binding materials that can be recovered by environmental stimuli

4 Metal Chelating Biopolymers Based on biological building blocks Based on biological building blocks Nanoscale biopolymers that are specially pre-programmed within a DNA template Nanoscale biopolymers that are specially pre-programmed within a DNA template Economically produced by bacteria Economically produced by bacteria Environmentally friendly Environmentally friendly Tunable properties based on changes in environmental conditions – pH or temperature Tunable properties based on changes in environmental conditions – pH or temperature

5 Elastin Biopolymer Structurally similar to the repeating elastometric peptide sequence of the mammalian protein, elastin Structurally similar to the repeating elastometric peptide sequence of the mammalian protein, elastin VPGVG are the most frequently repeating units VPGVG are the most frequently repeating units Undergo a reversible phase transition from water soluble forms into aggregates as the temperature increases Undergo a reversible phase transition from water soluble forms into aggregates as the temperature increases Low temperature:  -turn High temperature : twisted filament of  -spirals

6 Genetic and Protein Engineering Methodology Synthetic gene Recombinant plasmid Plasmid Enzyme ELP biopolymers

7 Customizable Metal Binding Biopolymers Metal Binding Domain Fine tune affinity with different binding sequences Elastin Domain Fine tune the transition temperature by controlling amino acid sequence and number of repeating unit (VPGXG) n

8 Heavy Metal Removal by Tunable Biopolymer + Cd TT Regeneration soluble proteininsoluble protein Cd 2+

9 Elastin Biopolymers with Metal- Binding Affinity A B C D E Biopolymer A. ELP38H6 B. ELP58H6 C. ELP78H6 D. ELP78 E. ELP78H12 Kostal et al. Macromolecules, 34, 2257-2261, 2001.

10 Phase Transition Transition temperatures can be fine tuned from 20 to 40 o C by controlling the chain length and salt concentration Low Temp High Temp

11 Cadmium Removal 50 nmol of biopolymer were incubated with 100 nmol Cd 2+

12 Repeated Cycles of Metal Binding Cycle 1 Cycle 2 Cycle 3 Cycle 4 5  g added each cycle

13 Practical Applications: Soil Flushing/Washing Environmental friendly extractant Environmental friendly extractant Simple separation and recycling Simple separation and recycling In-situ Soil FlushingEx-situ Soil Washing

14 Soil-Biopolymer Adsorption Characteristics Soil-Biopolymer Sorption Characteristics Soil-Biopolymer Sorption Characteristics Freundlich isotherm Freundlich isotherm Log x/m = Log K f + 1/n Log Ceq Maximum 19% adsorption Biosurfactant – typically in the 70% range Prabhukumar Prabhukumar et al. ES&T, 38, 3148-3152, 2004.

15 Biopolymer-Cadmium Extraction Studies 1. Single Batch washing with distilled water 2. Two sequential batch washings with distilled water 3. Single batch washing with 1.25 mg/ml (0.036 mM) ELP without the histidine tag 4. Single batch washing with 0.036 mM EDTA 5. Single batch washing with 1.25 mg/ml ELPH12 6. Single batch washing with 2.5 mg/ml ELPH127. Single batch washing with 5 mg/ml ELPH12 8. Two sequential batch washings with 1.25 mg/ml ELPH12 Less than 10% adsorption

16 His 6 or His 12 tag can serve as a simple metal binding domain Both T t and metal binding capacity can be easily regulated Biopolymers can be recycled Lack specificity and affinity First generation biopolymers

17 Customizable Metal Binding Biopolymers Fine tune affinity with different binding sequences Metal Binding Domain Elastin Domain Fine tune  T by controlling amino acid sequence and number of repeating unit (VPGXG) n

18 Bacterial mer Systems mer genes on E. coli plasmids or transposons MerR MerD IM OM MerT MerP MerA MerB Hg 2+ organomercury Hg 0 Hg 2+

19 MerR can serve as a specific mercury binding domain C123 C79 C114 C79 C123 MerR-Hg complex

20 A B C kDa A, cell free extract B, purified protein (80.1 kDa) C, size marker Production and purification of ELP153-MerR

21 Binding of Mercury to ELP153-MerR Similar binding from pH 4 to 9

22 Selective Binding of Mercury by Ela153-MerR Biopolymer Acidic waste water (pH 4) Kostal et al. ES&T, 37, 4457-4462, 2003.

23 Other Metal-binding Domains Metallothioneins (MTs) MDRNCSCAACDSCTCAGSCKCKECK CTSCKKSCCSCCPVGCAKCAQGCICK GASDKCSCCA Synthetic Phytochelatins (ECs)  ECECECECECECECECECECECECEC ECECECECECECECG Higher affinity toward Hg and Cd

24 Cadmium Binding Prefer Hg over Cd

25 Differential Precipitation and Separation – Strategy Histag ELP78 Cd 2+ +ΔT1+ΔT1 +ΔT 2 or NaCl ELP105K21 Hg 2+ EC20 Cd 2+ Hg 2+ ELP105K21 Hg 2+ EC20

26 Customizable Metal Binding Biopolymers Fine tune affinity with different binding sequences Metal Binding Domain Elastin Domain Fine tune  T by controlling amino acid sequence and number of repeating unit (VPGXG) n

27 Differential Precipitation and Separation Differential precipitation and recovery by tuning the elastin composition: Lysine as the guest residues Differential precipitation and recovery by tuning the elastin composition: Lysine as the guest residues ELP78 ELP-Lys ELP78+ ELP-Lys

28 Differential Precipitation and Separation 1)Marker. 4) 48 o C heat pellet 2)Biopolymer mixture 5) 48 o C supernatant 3) 32 o C heat spin pellet Supernatant heat to 48 o C Mixture Heat to 32 o C Pellet dissolved in cold buffer Centrifuge at 32 o C Pellet dissolved in cold buffer Centrifuge at 48 o C 1 2 3 4 5 ELPH12 ELPKEC20

29 Conclusions Nanoscale ELP biopolymer can be designed with customized properties: Nanoscale ELP biopolymer can be designed with customized properties: Specificity Specificity Tunable transition Tunable transition Provide a novel, environmental friendly, and green engineering method for removal of heavy metal from water and soil. Provide a novel, environmental friendly, and green engineering method for removal of heavy metal from water and soil.

30 Acknowledgement Exploratory Research: Nanotechnology R829606

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