enzymes in lipid modification - sfel · enzymes in lipid modification ... establishment of...
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Email: [email protected]: www.chemie.uni-greifswald.de/~biotech
Uwe T. BornscheuerInstitute of Biochemistry
Email: [email protected]: http://biotech.uni-greifswald.de/
Founded 1456
Enzymes in Lipid Modification From Classical Biocatalysis with Commercial
Enzymes to Advanced Protein Engineering Tools
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering by Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Why Biocatalysis in Lipid Modification?
Mild reactions conditions / low temperatures
Conversion of sensitive compounds (e.g. polyunsaturated fatty acids)
Often simplified downstream processing
Products often biodegradable
High chemo-, regio- and stereoselectivity
no / less by-products
no need for protecting group chemistry
no need for solvents
"White Biotechnology"
Advantages of enzymatic reactions
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Chemical Synthesis
Economy
BiocatalyticProcess
Selection ofBiocatalyst
Characterization of Biocatalyst
Optimizationof Biocatalyst
DirectedEvolution
RationalDesign
ProcessOptimization
ProductIsolation
Substrate Product
Screening:MicroorganismEnzyme
Kinetics
Immobilization
DownstreamProcessing
The Biocatalysis Cycle
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Commercial suppliers (screening in catalogs)Classical screening by enrichment cultureIn silico screening in data basesMetagenome-screening:
>99% of all MO are 'non-cultivable'broad diversity accessible, already recombinant
Protein Engineering byRational protein designDirected (molecular) evolutionCombined approaches
Enzyme Sources
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis 7
Looking Back to the 1990ies
Until the early 90ies, the biocatalysis was hampered because only a very limited number of enzymes was available, such as:
Lipozyme RMIM (immob. lipase from Rhizomucor miehei, Novozymes)Novozyme Sp435/NZ435 (immob. lipase B from Candida antarctica)Lipase from Humicola lanuginosa (now renamed to Thermomyces lanuginosis TLIM), Novoz.Lipase from Rhizopus oryzae / delemar (e.g., Amano, Japan)Lipase from Pseudomonas sp. (e.g., Amano, Japan)Lipase from Candida rugosa (e.g., Meito Sangyo, Amano, Japan)Lipase from Geotrichum candidum (e.g., Amano, Japan)
Protein Engineering was difficult because of lack of protein structures, softwareStandard solution was optimization of reaction conditions
changing solvents (medium engineering)investigate water content / water activitychange acyl donor or alcohol / enzyme amount / pH / temperature etc.
If all of this did not solve the problem, then you had a problem !
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Which (Isolated) Enzymes are Useful?
Enzyme
Lipase
Phospholipase
Monooxygenase
Epoxidase
Lipoxygenase
Applications Examples
Synthesis of structured triglyceridesEnrichment of specific fatty acidsIncorporation of specific fatty acidsSynthesis of fatty acid derived productsFatty acid methyl ester synthesis
Cocoa-butter equivalent, BetapolPUFA from fish oilsPUFA into plant oilsEmollient esters, sugar estersBiodiesel
Removal of fatty acids in sn1- or sn2-position (PLA1 or PLA2)Removal of phosphate head group (PLC)Head group exchange (PLD)
Degumming of oilsLyso-phospholipidsChiral diglyceridesPhosphatidylserine
Hydroxylation of fatty acids Precursor for polyesters / lactones
Epoxidation of double bonds ?
Synthesis of FA-hydroperoxides ?
Metzger, J.O., Bornscheuer, U.T. Appl. Microb. Biotechnol., 71, 13-22 (2006)Kourist, R., Brundiek, H., Bornscheuer, U.T. (2010), Eur. J. Lipid Sci. Technol., 112, 64-74Biermann, U., Bornscheuer, U.T., Meier, M.A.R., Metzger, J., Schäfer, H.J. Angew. Chem. Int. Ed (2011), 50, 3854-3871
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Lipase-Catalyzed Synthesis of Structured Triglycerides
Structured triglycerides of the ABA-type such as 1-Oleyl-2-Palmitoyl-3-Oleoyl-glycerol (OPO) are important for infant nutrition (e.g., Betapol)
Others like CyOCy are useful for low energy nutrition or in sports
Reviews: U.T. Bornscheuer, Lipid Technol., 7, 105-107 (2001). Bornscheuer, U.T., Adamczak, M., Soumanou, M.M. In: Lipids as constituents of functional foods (Gunstone, FD, ed.) PJ Barnes & Associates, Bridgwater, pp. 149-182 (2002).
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Lipase-Catalyzed Synthesis of Structured Triglycerides
Soumanou, M.M., Bornscheuer, U.T., Schmid, R.D., J. Am. Oil Chem. Soc. 75, 703-710 (1998).Soumanou, M.M., Bornscheuer, U.T., Menge, U., Schmid, R.D., J. Am. Oil Chem. Soc. 74, 427-433 (1997).Wongsakul, S., H-Kittikun, A., Bornscheuer, U.T. J. Am. Oil Chem. Soc., 81, 151-155 (2004)Wongsakul, S., Prasertsan, P., Bornscheuer, U.T., H-Kittikun, A. Eur. J. Lipid Sci. Technol., 105, 68–73 (2003).
Lipase
RML
RML
RDL-Celite
RDL-EP100
Solvent Yield [%] Purity [%]
hexane/MS 70 (5 h) 92
vacuum 89 (24 h) 82
hexane/MS 72 (5 h) 94
vacuum 78 (16 h) 96
Two step process for the production of Betapol (OPO): (instead of simple acidolysis encountered with low yield / product purity)
Alcoholysis Esterification
Advantages: higher yield higher purity only ethanol or acetone used flexible choice of lipases reaction conditions variable up-scaled to multi-kg stage successfully transferred also to PUFA incorporation from fish oil
OOC16:0OOC16:0OOC16:0
OOC18:1OOC16:0OOC18:1
Lipase, EtOH(Solvent)
– 2 C16:0OEt
OHOOC16:0OH
Lipase(Solvent)– 2 H2O
+ 2 C18:1OH
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Lipase-Catalyzed Synthesis of Sugar Esters
Background:Sugar fatty acid esters are useful as biodegradable detergents / emulsifiersStarting materials are renewable resources (sugar and fatty acids from plant oils)
Problem: Sugar and fatty acid are not miscible; do not dissolve enough in organic solvents
Published 'solutions': 'Hydrophobization' w/ acetone or phenylboronic acid requires protection/deprotection Use of alkyl-sugars: works, but yields other product properties Solid-phase synthesis: high yield, but difficult to up-scale
Alternative: Use of ionic liquids (ILs) as solvent
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Ionic Liquids:
Defined as salts with melting temperatures <100°C (molten salts) Organic cation combined w/ inorganic anionNo measurable vapor pressure, therefore regarded as 'green solvent'Properties can be modulated by variation of cation / anion:Miscible or immiscible with water / organic solvents
N NPF6
N NBF4
BMIM.BF4 BMIM.PF6BMIM: 1-butyl-3-methyl-imidazolium
Lipase-Catalyzed Synthesis of Sugar Esters
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Reaction I: first stepsGlucose & fatty acid (vinyl ester) with lipase in IL & t-BuOH
OHOHO
OHOH
OHO
HOOH
OH
OH O
+Enzyme
Ionic liquid / t-BuOH
R
O
R OR'
O
Lipase B from Candida antarctica works best
Lipase-Catalyzed Synthesis of Sugar Esters
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
OHO
HOOH
OHO
HOHO
OHOH
OH O
+CAL-B
Ionic liquid / 40% t-BuOH, 60 °C, – H20 or acetaldehyde
R
O
R OR'
O
R = C11H23 or C13H27 or C15H31R' = H or CH=CH2
Ganske, F.; Bornscheuer, U.T. Org. Lett., 7, 3097-3098 (2005)Ganske, F.; Bornscheuer, U.T. J. Mol. Catal. B: Enzym., 36, 40-42 (2005)
Ganske, F.; Bornscheuer, U.T. Biotechnol. Lett., 28, 465-469 (2006)
Reaction I: OptimizationUse of fatty acid / vinyl ester, various ILs, concentration of t-BuOH, preparative scale:
Lipase-Catalyzed Synthesis of Sugar Esters
Glukose &
C12-Vinylester
C14-Vinylester
C16-Fettsäure
Conv. [%]
Yield[%]
Purity [%]
90 75 99.8
89 89 95.1
64 48 99.8
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Characterization of Lipases from Metagenome
Metagenome
refers to all genome information present in an environmental sample (i.e. soil sample)
allows access to 'non-cultivatable' biodiversity (~99 % of all organisms!)
all enzymes identified are already recombinant and functionally expressed
numerous and highly diverse biocatalysts accessible (i.e. 200 nitrilase found compared to ~15 found by classical screening/cultivation)
Task: Identification of suitable lipases
350 lipase/esterase samples provided by Verenium Inc. (formerly Diversa Inc.)
profiling of fatty acid selectivity using milk fat as model lipid using GC analysis
further characterization of interesting hits
Handelsman, J. (2005), Nature Biotechnol 23, 38-39; Short, J.M. (1997), Nature Biotechnol., 15, 1322-1323
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Characterization of Lipases from MetagenomeHow to deal with so much data?
Enzymes searched w/ preference for short chain fatty acids
Selected by suitable X- and Y-values using equation
Desired enzymes
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Characterization of Lipases from Metagenome
Profile compared to kid and calf lipases used in cheese production
identified several enzymes with similar fatty acid profile
Bertram, M., Hildebrandt, P., Weiner, D.P., Patel, S.J., Bartnek, F., Hitchman, T.S., Bornscheuer, U.T., (2008) J. Am. Oil Chem. Soc., 85, 47-53.
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Challenge
3-Monochloro-1,2-propanediol (3-MCPD) is a food processing
contaminant
In heat processed fat-containing foodstuffs it is formed from glycerol
or acylglycerols (partial glycerides) and chloride ions
Only a small percentage is present as free 3-MCPD
The major part is ester linked with fatty acids
These compounds are toxic and need to be removed
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Enzymatic Concept
A combination of dehalogenase and epoxide hydrolase
should allow removal of 3-MCPD
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
All are !/"-hydrolase fold enzymes:
Esterase/Lipase/Protease (Ser-His-Asp)
Hydroxynitrile Lyase (Ser-His-Asp)
Epoxide Hydrolase (Asp-His-Asp)
Haloalkane / Halohydrine Dehalogenase (Asp-His-Asp)
Epoxide hydrolase Esterase Dehalogenase
Properties of Epoxide Hydrolases & Dehalogenases
Kourist, R., Jochens, H., Bartsch, S., Kuipers, R., Padhi, S.K., Gall, M., Böttcher, D., Joosten, H.-J., Bornscheuer, U.T., ChemBioChem, 11, 1635-1643 (2010)
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Enzymatic MechanismsDehalogenase:
Epoxide Hydrolase
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Experimental Verification
Establishment of analytical methods for 3-MCPD analysis
Investigation of several dehalogenases and epoxide hydrolases for
activity on these compounds
Verification of 3-MCPD conversion in aqueous system
Transfer to oil samples containing an aqueous phase
Synthesis of 3-MCPD-monoester of oleic acid
Verification of enzymatic activity on 3-MCPD-monoester
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Conversion of 3-MCPD-Ester in a Two-Phase System
astart conc. 10 mM; bafter addition of EH
Water[%]
50
25
5
3-MCPDa
[mM]Glycidol
[mM]Glycidolb
[mM]
2.6 6.3 0.7
1.4 7.2 0
0 7.7 0
Dehalogenase and epoxide hydrolase are indeed able to convert 3-MCPD into the harmless glycerolFor 3-MCPD fatty acid esters, a lipase can be addedUnexpectedly, all enzymes were active in the highly hydrophobic reaction system
Bornscheuer, U.T., Hesseler, M. (2010) Eur. J. Lipid Sci. Technol., 112, 552-556
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Phospholipase C
O RO
O
O
OR
P OO
O-X
PLA1
PLA2
PLC PLD
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Some Recent Applications
O CH2
CHO
H2C O PO
OO
CH2 CH COONH3
Fatty acid
Fatty acid
PLA1 / PLA2
Degumming of edible oils (EnzyMax Process) Synthesis of specific (lyso-)phospholipids
PLD Headgroup exchange Synthesis of specific phospholipids, e.g. Serines
http://www.leci-ps.com/bioactives/html/e/products/brands/lecips/phosphat.htm
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Degumming of Edible Oils
Chemical
1. Acid treatment2. Neutralisation
Desodorisation
Bleaching
Water degumming
Physical
Enzymatic degumming
Steam distillation/ desodorisation
Bleaching
Water degumming
Refined Oil
water-soluble phospholipids
free fatty acids, Tocopherols etc.
free fatty acids,phospholipids
water-insoluble phospholipids
Carotenoids, phospholipids
Crude Oil
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
25 strains from B. cereus and B. subtilis were screened for PLC-activity
All strains were cultivated at 37°C in LB-media in shake flasks
Cell were harvested by centrifugation, the media was concentrated using
Centricons and/or lyophilized and used for characterization of PLCs
Seven B. cereus strains show high PLC-activity towards pNPPC
O P O
O
O
O
p-Nitrophenylphosphorylcholine
O2N O2N
p-Nitrophenolate
PLC
+ H2O /- Phosphorylcholine
N
Screening of Bacillus sp. Wild-Type Strains
Durban, M., Bornscheuer, U.T. (2003) Eur. J. Lipid Sci. Technol., 105, 633-637Durban, M., Bornscheuer, U.T. (2007) Eur. J. Lipid Sci. Technol., 109, 469-473
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
0
1
2
3
4
5
6
0 1 2 3 4 5 6 7 8
Time [h]
OD
600
0
50
100
150
200
250
300
350
400
450
Activ
ity [U
/ml]
GrowthU/ml
Up to 8.000 U/mg lyophilized supernatant
Highly active at acidic pH and up to 70°C
Efficiently expressed recombinantly in Bacillus subtilis
Best strain
Durban, M., Silbersack, J., Schweder, T., Schauer, F. Bornscheuer, U.T., (2007) Appl. Microbiol. Biotechnol., 74, 634-639
Screening of Bacillus sp. Wild-Type Strains
33
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Complete removal of 1,2-DMPC with PLC up to 0.1 mM
Good conversion in rape seed oil spiked with phospholipid mixture
PC-PLC also acts on PE and phosphatidic acid (PA)
0
20
40
60
80
100
120
Mea
sure
d ph
osph
ate
cont
ent [!M
]
0 20 50 70 100
Used phosphate content (1,2-DMPC) [!M]
50 mM borate, pH 7.5, w/o PLC100mM DMG, pH 7.33 mM citrate, pH 5.050 mM borate pH 7.5/Toluene 1:150 mM borate, pH 7.550 mM borate, pH 7.5, calibration
0
0,2
0,4
0,6
0,8
1
1,2
1,4
1,6
1,8
2
Mea
sure
d ph
osph
ate
cont
ent [
mM
]
10 5 2,5 1 0,5Used phospholipid concentration [mM]
PA (3 mM citrate, pH 5.0)PA (50 mM borate, pH 7.5)PE (3 mM citrate, pH 5.0)PE (50 mM borate, pH 7.5)PC (3 mM citrate, pH 5.0)PC (50 mM borate, pH 7.5)
Model mixture w/ 1,2-DMPC Rape seed oil spiked w/ phospholipids
Durban, M., Bornscheuer, U.T. (2003) Eur. J. Lipid Sci. Technol., 105, 633-637Durban, M., Bornscheuer, U.T. (2007) Eur. J. Lipid Sci. Technol., 109, 469-473
Application of Novel PLC in Degumming
34
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Outline
Introduction
Lipase-Catalyzed Synthesis of Structured Triglycerides
Lipase-Catalyzed Synthesis of Sugar Esters
Characterization of Lipases from Metagenome
Removal of 3-MCPD with Dehalogenase/Epoxide Hydrolase
Phospholipase C in Degumming
Protein Engineering to Alter Fatty Acid Selectivity of Lipase
Summary
35
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Understand how proteins functionidentification of residues involved in catalytic mechanismformation of quaternary structure (i.e., monomer vs. dimer)
Understand evolutionary relationships between different proteinsrelationship of proteins in superfamilies (i.e. enolase superfamily, !/"-hydrolase fold family)
Making them better for applicationenhanced or inverted (chemo-, regio-, stereo-) selectivity broadened or narrowed substrate specificityaltered pH- or temperature profileimproved stability (temperature, solvent etc.)suppressed substrate or product inhibitionenhanced catalytic efficiency
Why Protein Engineering ?
36
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Engineering the Third Wave in Biocatalysis
Bornscheuer, U.T., Huisman, G. W., Kazlauskas, R.J., Lutz, S., Moore, J.C., Robins, K., Nature, 485, 185-194 (2012)
1st wave
Impact of biocatalysis
a. b. c. d.
e.f.
g.
Qua
lity
of to
ols
Bas
ic
info
rmat
ion
3rd wave2nd wave
CN
OHNH2HO
Cell extract / microbesStability, substrate range etc.Immobilization or no solution
Recombinant enzymeRandom mutagenesis / HTS...Screen large libraries
Recombinant w/ synthetic genesFewer than beforeProtein/structure database; bioinformatics
Source:Issues:Solution:
~1910-1980 ~1980-2000 >2000
37
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Strategies in Protein Engineering
Kazlauskas, R.J., Bornscheuer, U.T., Nature Chem. Biol., 5, 526-529 (2009)Lutz, S., Bornscheuer, U.T. (Eds.), Protein Engineering Handbook, Wiley-VCH, Weinheim (2009)
Kourist, R., Brundiek, H., Bornscheuer, U.T., Eur. J. Lipid Sci. Technol., 112, 64-74 (2010)Behrens, G.A., Hummel, A., Padhi, S.K., Schätzle, S., Bornscheuer, U.T., Adv. Synth. Catal., 353, 2191-2215 (2011)
!"#$%&
'($"
)!"*+",!*-
)
,.%++"
!"/)+0
$%*)
!"#$%&$!'$()*+,)-'.#/-!)0'0+&/1$-$2"23'
%)04"-$!'/55#)/%6$2' #/,)-/*'!$2"1-'.!"2,-%&'5)"-&'0+&/,)-23'
epPCR gene shuffling insertion/deletion circular permutation
CASTing/ISM ProSAR consensus approach 3DM
homology modeling + docked substrates x-ray structures + transition state analogues
38
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
How to Find the Needle in the Haystack?
Number of possible variants of a proteins by introducingM substitutions in N amino acids = 19M[N!/(N-M)!M!]
Substitutions Substitutions (M)
1
2
3
4
Length of Protein Sequence (Length of Protein Sequence (N)
10 200
190 3 800
16 245 7 183 900
823 080 9 008 610 600
27 367 410 8 429 807 368 950
39
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
How to Find the Needle in the Haystack?
Number of possible variants of a proteins by introducingM substitutions in N amino acids = 19M[N!/(N-M)!M!]
Substitutions Substitutions (M)
1
2
3
4
Length of Protein Sequence (Length of Protein Sequence (N)
10 200
190 3 800
16 245 7 183 900
823 080 9 008 610 600
27 367 410 8 429 807 368 950
A rapid and reliable assay system is the key to successful directed evolution experiments
But the throughput can vary considerably depending on the specific problem / assays at hand
40
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
StrategyIdentification of key residues in protein structure for mutagenesis
Functional expression of gene encoding C. antarctica lipase A in E.coli
Development of suitable high-throughput screening method
Identification, verification and characterization of desired mutants
Protein Engineering of CAL-A
CAL-A structurepdb-code: 2veo
Substrate binding-tunnel
D. J. Ericsson, A. Kasrayan, P. Johansson, T. Bergfors, A. G. Sandström, J.-E. Bäckvall, S. L. Mowbray, J. Mol. Biol. 2008, 376, 109-119.
41
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Recombinant Expression of CAL-A in E.coli
Cytoplasmatic expression IV.
pel B CAL-A his-tag PT7 RBS
I.
CAL-A Sumo-
tag
PT7 RBS II.
III. p pro CAL-A his-tag PT7 RBS
CAL-A his-tag PT7 RBS
his-tag
pelB-CAL-A
Sumo-CAL-A
ppro-CAL-A
mCAL-A
Periplasmatic expression
Cytoplasmatic expression
Periplasmatic expression
Constructs used (all codon-optimized, synthetic genes)
Periplasmic expression
Periplasmic expression
Cytoplasmic expression
Cytoplasmic expression
42
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Recombinant Expression of CAL-A in E.coli
0
50
100
150
200
250
300
empty vector ppro-CAL-A pELB-CAL-A mCAL-A Sumo-CAL-A
U/m
l cul
ture
OD
adj
uste
d I. pelB-CAL-A
empty vector
neg. control
P S
III. ppro-CAL-A
M ppro CAL-A kDa
SDS-PAGE:
kDa ppro CAL-A
Western-Blot:
P S
P S
M kDa
SDS-PAGE: pelBCAL-A Western-Blot:
pelB CAL-A kDa
S P
P = insoluble fraction (pellet)
S = soluble fraction (supernatant) Expression analysis and activity
test w/ p-NP-laurate
Periplasmic expression works best !
43
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-A
Candida antarctica Lipase B (CAL-B)
Burkholderia cepacia Lipase
Mucor miehei Lipase
Geotrichum candidum Lipase (GCL)
Candida rugosa Lipase (CRL)
Candida antarctica Lipase A (CAL-A)
"Non-tuning fork binding"
"Tuning fork binding"
Funnel or cleft structure
Tunnel structure
44
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Assays
Selectivity towards medium-chain fatty acidsUse of p-nitrophenyl esters of varying chain-lengths
Selectivity towards trans-fatty acidsUse of pairs of trans-/cis-p-nitrophenyl esters of oleic vs. elaidic acidVerification w/ partially hydrogenated plant oil (hydrolysis, ethanolysis)
O
O
O
O
NO2
NO2
CAL-ABuffer
CAL-ABuffer
NO2
–O
NO2
–O
Oleic acid pNP ester
Elaidic acid pNP ester
=> Vcis
=> Vtrans
Selectivity:VtransVcis
45
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Substrate binding tunnel of CAL-A
Uniquelid
Flap
N
B1 B2 B3 B4B5 B6 B7 B8 B9
B10B11
A1
A2 A3 A4
A5A6
A7 A8 A9
A10
A11 A12
A13
A14
C
S D H
O O
!/"-Hydrolase fold
Protein Engineering of CAL-A
46
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-A
CAL-WT
G 237
Chain-length profile CAL-A (WT)
0.0
0.2
0.4
0.6
0.8
1.0
1.2
C2:0 C4:0 C6:0 C8:0 C9:0 C10:0 C12:0 C14:0 C16:0 C18:0 R
el. A
ctiv
ity [%
]
Creation of mutants by site-directed mutagenesis Expression in E. coli, His-tag purification Activity determination w/ pNP-esters of varying chain-length
Brundiek, H.B., Padhi, S.K., Kourist, R., Evitt, A., Bornscheuer, U.T., Eur. J. Lipid Sci. Technol. (2012), online
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Chain-length profile CAL-A (WT & mutants)
Protein Engineering of CAL-A
Clear shift to preference for medium chain-length fatty acids
!"!#
$"!#
%&'(&# )$*+&# )$*+'# )$*+,# )$*+-#
!"#$%&'
()*+,
%-./%
%$# %.# %/# %0# %1# %2!# %2$# %2.# %2/# %20#
WT G237A G237L G237V G237Y
Brundiek, H.B., Padhi, S.K., Kourist, R., Evitt, A., Bornscheuer, U.T., Eur. J. Lipid Sci. Technol. (2012), online
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Why Remove Trans-Fatty Acids?
Certain trans-fatty acids bear risks in human nutritionThey can form during partial hydrogenation of plant oils bearing at least two double bondsSeveral countries have strict regulations or banned trans-fatty acidsMethods for their selective removal are thus important
49
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Why CAL-A?3D-structure known
Wildtype enzyme already shows unique trans-selectivity
Protein Engineering of CAL-A
R. Borgdorf, S. Warwel, Appl. Microbiol. Biotechnol. 1999, 51, 480-485.
0
50
100
0 50 100 150 200 250 300
conv
ersi
on (%
)
reaction time
oleic acid elaidic acid
15-fold faster esterification with n-butanol for trans-fatty acid compared to cis-fatty acid
50
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Assays
Selectivity towards medium-chain fatty acidsUse of p-nitrophenyl esters of varying chain-lengths
Selectivity towards trans-fatty acidsUse of pairs of trans-/cis-p-nitrophenyl esters of oleic vs. elaidic acidVerification w/ partially hydrogenated plant oil (hydrolysis, ethanolysis)
O
O
O
O
NO2
NO2
CAL-ABuffer
CAL-ABuffer
NO2
–O
NO2
–O
Oleic acid pNP ester
Elaidic acid pNP ester
=> Vcis
=> Vtrans
Selectivity:VtransVcis
51
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-ASelectivity towards trans-fatty acids
Identification of residues from modeling to possibly deal with selectivitySaturation mutagenesis of residues, expression in E. coli, His-tag purificationAnalysis of trans-/cis-selectivity w/ pNP-estersIdentification of best hits per positionLarger scale production of variantsConfirmation of selectivity w/ partially hydrogenated oilCombination of best mutants
!"#$%&" '()* +(,- ./(0 1//( '/// 2//, '/33 4/35 2/)( 6/)0 +3-( 23-,
12 sites in CAL-A in 5 Å distance pointing towards fatty acid
52
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
A Typical Screening Procedure
Bartsch, S., Kourist, R., Bornscheuer, U.T., Angew. Chem. Int. Ed., 47, 1508-1511 (2008)
Elaidic-pNP
CAL-AWT Mutations
Oleic-pNP
Assay
Search for mutantswith
altered selectivity
Sequence analysisof best mutants
Replica platingOverlay agar activity test
Master plateStorage at -80°C
Transfer of active clones
Replica plating
Expression plateInduction with rhamnosefor enzyme production
Cell disruption20 #l of each well
into two wells of assay plate
Assay plate
Mutant library
53
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-ASelectivity towards trans-fatty acids
Identification of residues from modeling to deal with selectivitySaturation mutagenesis of residues, expression in E. coli, His-tag purificationAnalysis of trans-/cis-selectivity w/ pNP-estersIdentification of best hits per positionLarger scale production of variantsConfirmation of selectivity w/ partially hydrogenated oilCombination of best mutants
!"#$%&" '()* +(,- ./(0 1//( '/// 2//, '/33 4/35 2/)( 6/)0 +3-( 23-,
12 sites in CAL-A in 5 Å distance pointing towards fatty acid
54
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-A
Approx. 5,000 variants created by site-directed mutagenesis All clones expressed in E. coli in deep well plates and subjected
to high-throughput screening All assayed with trans/cis-pNP esters to determine selectivity Variants with better trans-selectivity for pNP esters analyzed in detail
with partially hydrogenated soybean oil (PHSO) by GC analysis PHSO contains up to 18% trans-FA and various individual species
Selectivity
trans/cis-pNP
WT I305N T221H I301H F222C F149D F222S
2.5 4 5 6 8 12 15
Brundiek, H.B., Evitt, A., Kourist, R., Bornscheuer, U.T., Angew. Chem. Int. Ed., 51, 412-414 (2012)
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-A
PHSO contains up to 18% trans-FA and various individual species GC analysis developed to separate & quantify all individual trans/cis/saturated FA Simple data analysis by calculating trans/cis-rate not possible Definition of alpha-selectivity factors required (similar to enantioselectivity) Each CAL-A variant had a distinct fatty acid profile Two variants found with excellent alpha factor >100:
no hydrolysis of cis-fatty acids observed!
Conv. [%]
alpha1
alpha2
WT L305N F149D F222S F222C T221H I301H
22 14 11 16 20 5 12
3.5 4.5 4.6 4.5 4.6 9.8 11.2
6.7 9.6 28.5 32.2 36.6 >100 >100
1: Selectivity: trans/(cis&sat); 2: Selectivity: (trans&sat)/cis
Brundiek, H.B., Evitt, A., Kourist, R., Bornscheuer, U.T., Angew. Chem. Int. Ed., 51, 412-414 (2012)
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Protein Engineering of CAL-A
Location of best mutations in 3D-structure
57
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Alternatives to CAL-A ?
CAL-A is very unique, only two sequences w/ >40% homology in databases
Lipase
ppro-CAL-A
LipK
LipUM (putative)
Amino acids kDa Homology [%]
462 49 100
458 49 76
582 63 69
LipK: lipase from Kurtzmanomyces sp., expressed and characterized1 LipUM: lipase from Ustilago maydis, annotated as putative lipase
1Kakugawa, K., Shobayashi, M., Suzuki, O., Miyakawa, T. Biosci. Biotechnol. Biochem. 66: 1328-1336 (2002); ibid. 66: 978-985.
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Alternatives to CAL-A ? LipK shows almost no trans-selectivity Focus on LipUM, issue: full-length gene has very little lipase activity
59
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Alternatives to CAL-A ?
!"!#
!"$#
%"!#
%"$#
&"!#
&"$#
'%(# '%)# '%*+# '%*,# '%*-# '%*.#
!"#$%
/0123#
456#
457#
Functional expression of lipUM (short) in E. coli and P. pastoris achieved lipUM also shows trans/cis-selectivity:
(1.7-fold for elaidate/oleate-pNP esters; CAL-A: 2.5-fold) Protein engineering of lipUM in progress
Brundiek, H.B., Sass, S., Evitt, A., Kourist, R., Bornscheuer, U.T., Appl. Microb. Biotechnol., 94, 141-150 (2012)
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Medium-Chain Fatty Acid SelectivityIdentification of key residue G237 allowed for blocking the entrance to the fatty acid binding region
pNP-assay with fatty acids of varying chain length identified mutants with clear shift towards medium chain fatty acids; hydrolysis of long-chain fatty acids suppressed
Trans-Fatty Acid SelectivityThe mutagenesis strategy identified several mutants with substantially increased trans-selectivity (up to alpha>100)
Results from pNP-assay could be transfered to complex trans-fatty acids mixture in partially hydrogenated plant oil
Combinations of mutations currently under study
Alternatives to CAL-AWith the lipase from Ustilago maydis an interesting alternative to CAL-A could be identified, functionally expressed and characterized
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Summary / Future Directions
SummaryEnzymatic methods are useful for lipid modification
Lipases are the 'working horses' already applied on industrial scale:
in the production of 'healthier' lipids for human nutrition
in oleochemistry
Protein engineering helps to tailor-design biocatalysts
The metagenome is a useful source of new enzymes
Future DirectionsFocus on oxygenative enzymes (monooxygenases, epoxidases, lipoxygenases etc.)
Metabolic engineering to use further classes of enzymes in whole-cell lipid modification
Multi-step biotransformations
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Take Home Message
"In the past, an enzyme-based process was designed around the limitations of the enzyme; today, the enzyme is engineered to fit the process specifications"
Bornscheuer, U.T., Huisman, G. W., Kazlauskas, R.J., Lutz, S., Moore, J.C., Robins, K., Nature, 485, 185-194 (2012)
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Acknowledgements
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
Thanks For Your Attention !
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Institute of Biochemistry – Dept. of Biotechnology & Enzyme Catalysis
AnnouncementsProtein Engineering Conference
Aug. 29./31. (Wed/Fri) 2012 (right before Biocat2012 in Hamburg)
Location: Greifswald, Institute of BiochemistryOrganizers: F. Hollfelder / U.T. Bornscheuer
Topics: Computational methods Emerging Targets for Protein Engineering Metagenome Approach Metabolic Engineering / Synthetic Biology New Concepts for Protein Discovery/Design
Biocatalysis in Lipid ModificationSept. 19./21. (Wed/Fri) 2012
(right before EuroFedLipid conf. in Krakow)
Location: Greifswald, Institute of BiochemistryOrganizers: P. Villeneuve / U.T. Bornscheuer
Topics: Application of isolated enzymes Enzyme discovery and protein engineering Whole cell biotransformation Understanding lipid biosynthesis in microorganisms Metabolic engineering and synthetic biology
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