Dr. F. (Francesco) Mutti

Faculty of Science

Van 't Hoff Institute for Molecular Sciences

Photographer: Attilio Barcella | Laser foto

Visiting address

Science Park 904
Room number:C2.252

Postal address

Postbus 94157
1090 GD Amsterdam

Contact details

Publications
2021

Corrado, M. L., Knaus, T., & Mutti, F. G. (2021). High Regio- and Stereoselective Multi-enzymatic Synthesis of All Phenylpropanolamine Stereoisomers from beta-Methylstyrene. ChemBioChem, 22(13), 2345-2350. https://doi.org/10.1002/cbic.202100123

Corrado, M. L., Tseliou, V., Houwman, J. A., Böhmer, W., Vilím, J., Masman, M. F., Knaus, T., & Mutti, F. G. (2021). Hydrogen-borrowing conversion of alcohols into optically active primary amines by combination of alcohol dehydrogenases and amine dehydrogenases. In J. Whittall, & P. W. Sutton (Eds.), Applied Biocatalysis: The Chemist's Enzyme Toolkit (pp. 455-468). Wiley. https://doi.org/10.1002/9781119487043.ch11 [details]

Tseliou, V., Böhmer, W., Corrado, M. L., Masman, M. F., Knaus, T., & Mutti, F. G. (2021). Asymmetric reductive amination of ketones catalysed by amine dehydrogenases. In J. Whittall, & P. W. Sutton (Eds.), Applied Biocatalysis: The Chemist's Enzyme Toolkit (pp. 221-231). Wiley. https://doi.org/10.1002/9781119487043.ch5 [details]

Tseliou, V., Schilder, D., Masman, M. F., Knaus, T., & Mutti, F. G. (2021). Generation of Oxidoreductases with Dual Alcohol Dehydrogenase and Amine Dehydrogenase Activity. Chemistry-A European Journal, 27(10), 3315-3325. https://doi.org/10.1002/chem.202003140

Vilím, J., Knaus, T., & Mutti, F. (2021). Aerobic synthesis of aromatic nitriles from alcohols and ammonia using galactose oxidase. In J. Whittall, & P. W. Sutton (Eds.), Applied Biocatalysis: The Chemist's Enzyme Toolkit (pp. 449-455). Wiley. https://doi.org/10.1002/9781119487043.ch11 [details]

2020

Böhmer, W., Koenekoop, L., Simon, T., & Mutti, F. G. (2020). Parallel Interconnected Kinetic Asymmetric Transformation (PIKAT) with an Immobilized ω-Transaminase in Neat Organic Solvent. Molecules, 25(9), [2140]. https://doi.org/10.3390/molecules25092140 [details]
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Böhmer, W., Volkov, A., Engelmark Cassimjee, K., & Mutti, F. G. (2020). Continuous Flow Bioamination of Ketones in Organic Solvents at Controlled Water Activity using Immobilized ω-Transaminases. Advanced Synthesis & Catalysis, 362(9), 1858-1867. https://doi.org/10.1002/adsc.201901274 [details]
Downloads
adsc.201901274
Supplementary files
adsc201901274-sup-0001-misc information

Tseliou, V., Knaus, T., Vilím, J., Masman, M. F., & Mutti, F. G. (2020). Kinetic Resolution of Racemic Primary Amines Using Geobacillus stearothermophilus Amine Dehydrogenase Variant. ChemCatChem, 12(8), 2184-2188. https://doi.org/10.1002/cctc.201902085 [details]
Downloads
cctc.201902085
Supplementary files
cctc201902085-sup-0001-misc information

Vilím, J., Knaus, T., & Mutti, F. G. (2020). Biocatalyzed Aerobic Oxidation Reaction. In E. Mejía (Ed.), Catalytic Aerobic Oxidations (pp. 131-180). (Catalysis Series; No. 39). Royal Society of Chemistry. https://doi.org/10.1039/9781839160332-00131 [details]

2019

Bohmer, W., Knaus, T., Volkov, A., Slot, T. K., Shiju, N. R., Cassimjee, K. E., & Mutti, F. G. (2019). Highly efficient production of chiral amines in batch and continuous flow by immobilized ω-transaminases on controlled porosity glass metal-ion affinity carrier. Journal of Biotechnology, 291, 52-60. https://doi.org/10.1016/j.jbiotec.2018.12.001 [details]
Downloads
1-s2.0-S0168165618307090-main
Supplementary files
1-s2.0-S0168165618307090-mmc1

Cariati, L., Oliverio, M., Mutti, F. G., Bonacci, S., Knaus, T., Costanzo, P., & Procopio, A. (2019). Hydrolases-mediated transformation of oleuropein into demethyloleuropein. Bioorganic Chemistry, 84, 384-388. https://doi.org/10.1016/j.bioorg.2018.12.005 [details]

Corrado, M. L., Knaus, T., & Mutti, F. G. (2019). Regio- and stereoselective multi-enzymatic aminohydroxylation of β-methylstyrene using dioxygen, ammonia and formate. Green Chemistry, 21(23), 6246-6251. https://doi.org/10.1039/c9gc03161h [details]

Gacs, J., Zhang, W., Knaus, T., Mutti, F. G., Arends, I. W. C. E., & Hollmann, F. (2019). A Photo-Enzymatic Cascade to Transform Racemic Alcohols into Enantiomerically Pure Amines. Catalysts, 9(4), [305]. https://doi.org/10.3390/catal9040305 [details]
Downloads
catalysts-09-00305-v2
Supplementary files
catalysts-09-00305-s001

Houwman, J. A., Knaus, T., Costa, M., & Mutti, F. G. (2019). Efficient synthesis of enantiopure amines from alcohols using resting E. coli cells and ammonia. Green Chemistry, 21(14), 3846-3857. https://doi.org/10.1039/c9gc01059a

Musa, M. M., Hollmann, F., & Mutti, F. G. (2019). Synthesis of enantiomerically pure alcohols and amines via biocatalytic deracemisation methods. Catalysis Science & Technology, 9(20), 5487-5503. https://doi.org/10.1039/c9cy01539f [details]
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Tseliou, V., Knaus, T., Masman, M. F., Corrado, M. L., & Mutti, F. G. (2019). Generation of amine dehydrogenases with increased catalytic performance and substrate scope from ε-deaminating L-Lysine dehydrogenase. Nature Communications, 10, [3717]. https://doi.org/10.1038/s41467-019-11509-x [details]
Downloads
Generation of amine dehydrogenases with increased catalytic performance
Supplementary files
41467 2019 11509 MOESM1 ESM
41467 2019 11509 MOESM2 ESM
41467 2019 11509 MOESM3 ESM

Tseliou, V., Masman, M. F., Böhmer, W., Knaus, T., & Mutti, F. G. (2019). Mechanistic Insight into the Catalytic Promiscuity of Amine Dehydrogenases: Asymmetric Synthesis of Secondary and Primary Amines. ChemBioChem, 20(6), 800-812. https://doi.org/10.1002/cbic.201800626 [details]
Downloads
Tseliou et al-2019-ChemBioChem
Supplementary files
cbic201800626-sup-0001-misc information
cbic201800626-sup-0001-video

2018

Bohmer, W., Knaus, T., & Mutti, F. G. (2018). Hydrogen-Borrowing Alcohol Bioamination with Coimmobilized Dehydrogenases. ChemCatChem, 10(4), 731-735. https://doi.org/10.1002/cctc.201701366 [details]
Downloads
B-hmer et al-2018-ChemCatChem
Supplementary files
cctc201701366-sup-0001-misc information

Corrado, M. L., Knaus, T., & Mutti, F. G. (2018). A Chimeric Styrene Monooxygenase with Increased Efficiency in Asymmetric Biocatalytic Epoxidation. ChemBioChem, 19(7), 679-686. https://doi.org/10.1002/cbic.201700653 [details]
Downloads
Corrado et al-2018-ChemBioChem
Supplementary files
cbic201700653-sup-0001-misc information

Knaus, T., Tseliou, V., Humphreys, L. D., Scrutton, N. S., & Mutti, F. G. (2018). A biocatalytic method for the chemoselective aerobic oxidation of aldehydes to carboxylic acids. Green Chemistry, 20(17), 3931-3943. https://doi.org/10.1039/c8gc01381k [details]

Vilím, J., Knaus, T., & Mutti, F. G. (2018). Catalytic Promiscuity of Galactose Oxidase: A Mild Synthesis of Nitriles from Alcohols, Air, and Ammonia. Angewandte Chemie, International Edition, 57(43), 14240-14244. https://doi.org/10.1002/anie.201809411, https://doi.org/10.1002/ange.201809411 [details]
Downloads
Vil-m et al-2018-Angewandte Chemie International Edition
Supplementary files
anie201809411-sup-0001-misc information

Vilím, J., Knaus, T., & Mutti, F. G. (2018). Catalytic Promiscuity of Galactose Oxidase: A Mild Synthesis of Nitriles from Alcohols, Air, and Ammonia. Angewandte Chemie, 130(43), 14436-14440. https://doi.org/10.1002/ange.201809411, https://doi.org/10.1002/anie.201809411 [details]
Downloads
ange.201809411 Catalytic promiscuity of galactose oxidase
Supplementary files
ange201809411-sup-0001-misc information

Zhang, W., Fernandez-Fueyo, E., Ni, Y., van Schie, M., Gacs, J., Renirie, R., ... Hollmann, F. (2018). Selective aerobic oxidation reactions using a combination of photocatalytic water oxidation and enzymatic oxyfunctionalizations. Nature Catalysis, 1(1), 55-62. https://doi.org/10.1038/s41929-017-0001-5 [details]

2017

Knaus, T., & Mutti, F. G. (2017). Biocatalytic hydrogen-borrowing cascades. Chimica Oggi, 35(5, special issue), 34-37. [details]

Knaus, T., Böhmer, W., & Mutti, F. G. (2017). Amine dehydrogenases: efficient biocatalysts for the reductive amination of carbonyl compounds. Green Chemistry, 19(2), 453-463. https://doi.org/10.1039/c6gc01987k [details]
Downloads
c6gc01987k
Supplementary files
c6gc01987k1

Knaus, T., Cariati, L., Masman, M. F., & Mutti, F. G. (2017). In vitro biocatalytic pathway design: orthogonal network for the quantitative and stereospecific amination of alcohols. Organic & Biomolecular Chemistry, 15(39), 8313-8325. https://doi.org/10.1039/c7ob01927k

2016

Both, P., Busch, H., Kelly, P. P., Mutti, F. G., Turner, N. J., & Flitsch, S. L. (2016). Ganzzellen‐Biokatalysator für stereoselektive C‐H‐Aminierungen. Angewandte Chemie, 128(4), 1533-1536. https://doi.org/10.1002/ange.201510028, https://doi.org/10.1002/anie.201510028 [details]

Both, P., Busch, H., Kelly, P. P., Mutti, F. G., Turner, N. J., & Flitsch, S. L. (2016). Whole-cell biocatalysts for stereoselective C-H amination reactions. Angewandte Chemie, International Edition, 55(4), 1511-1513. https://doi.org/10.1002/anie.201510028, https://doi.org/10.1002/ange.201510028 [details]

Knaus, T., Paul, C. E., Levy, C. W., de Vries, S., Mutti, F. G., Hollmann, F., & Scrutton, N. S. (2016). Better than Nature: Nicotinamide Biomimetics That Outperform Natural Coenzymes. Journal of the American Chemical Society, 138(3), 1033-1039. https://doi.org/10.1021/jacs.5b12252 [details]
Downloads
Better than Nature
Supplementary files
Better than Nature suppl

Mutti, F. G., Fuchs, C., & Kroutil, W. (2016). Asymmetric amination of ketones employing ω-TAs in organic solvents. In J. Whittall, P. W. Sutton, & W. Kroutil (Eds.), Practical methods for biocatalysis and biotransformations (Vol. 3, pp. 171-176). Chichester: Wiley. https://doi.org/10.1002/9781118697856.ch06 [details]

Sattler, J. H., Fuchs, M., Mutti, F. G., & Kroutil, W. (2016). Amination of primary alcohols via a redox-neutral biocascade. In J. Whittall, P. W. Sutton, & W. Kroutil (Eds.), Practical methods for biocatalysis and biotransformations (Vol. 3, pp. 215-218). Chichester: Wiley. https://doi.org/10.1002/9781118697856.ch08 [details]

2015

Holzer, A. K., Hiebler, K., Mutti, F. G., Simon, R. C., Lauterbach, L., Lenz, O., & Kroutil, W. (2015). Asymmetric biocatalytic amination of ketones at the expense of NH3 and molecular hydrogen. Organic Letters, 17(10), 2431-2433. https://doi.org/10.1021/acs.orglett.5b01154

Knaus, T., Mutti, F. G., Humphreys, L. D., Turner, N. J., & Scrutton, N. S. (2015). Systematic methodology for the development of biocatalytic hydrogen-borrowing cascades: application to the synthesis of chiral α-substituted carboxylic acids from α-substituted α,β-unsaturated aldehydes. Organic & Biomolecular Chemistry, 13(1), 223-233. https://doi.org/10.1039/c4ob02282c

Mutti, F. G., Knaus, T., Scrutton, N. S., Breuer, M., & Turner, N. J. (2015). Conversion of alcohols to enantiopure amines through dual-enzyme hydrogen-borrowing cascades. Science, 349(6255), 1525-1529. https://doi.org/10.1126/science.aac9283 [details]
2020

Mutti, F., Tseliou, V., Knaus, T., & Masman, M. F. (2020). L-Lysine epsilon-dehydrogenase variants and uses thereof. (Patent No. WO 2020165417 A1 20200130).

Mutti, F., Vilím, J., & Knaus, T. (2020). Process for the manufacture of nitrile compounds. (Patent No. WO 2020020844 A1 20200130).

2015

Baldenius, K., Breuer, M., Ditrich, K., Navickas, V., Mutti, F., Knaus, T., & Turner, N. (2015). Redox self-sufficient bioamination of alcohols.
Award

Gargano, A., Mutti, F. & Peters, R. (2020). grant EnDeP.

Media appearance

Mutti, F. (01-04-2019). Sustainable synthesis of chiral amines: the HIMS-Biocat way The Project Repository Journal / European Dissemination Media Agency (EDMA). Sustainable synthesis of chiral amines: the HIMS-Biocat way. http://edition.pagesuite-professional.co.uk/html5/reader/production/default.aspx?pubname=&edid=3fc3875c-b9c5-4de1-a66a-3f0981761e99

Mutti, F. (01-10-2018). Molecular science: The importance of sustainable manufacturing of chiral amines Open Access Government. Molecular science: The importance of sustainable manufacturing of chiral amines. http://edition.pagesuite-professional.co.uk/html5/reader/production/default.aspx?pubname=&edid=cf9996f7-b194-4d40-bb84-559aecb6d4b8

Mutti, F. (28-08-2018). Developing new pathways for biocatalytic cascades EU Research. Developing new pathways for biocatalytic cascades. http://hims.uva.nl/content/news/2018/08/hims-biocatalysis-project-showcased-in-eu-research-magazine.html

Mutti, F. (28-08-2018). Developing new pathways for biocatalytic cascades. Developing new pathways for biocatalytic cascades. https://issuu.com/euresearcher/docs/eu_research_16_digital_magazine_fin

Journal editor

Mutti, F. (editor) (2017-). Amsterdam Science (Journal).

Talk / presentation

Mutti, F. (speaker) (3-2020). Continuous flow biocatalysis for chiral amine synthesis, Flow Chemistry Europe 2020, Cambridge.

Mutti, F. (speaker) (22-11-2019). Novel oxidoreductases: from enzyme engineering to biocatalytic cascades, Novartis.

Mutti, F. (speaker) (21-11-2019). Novel oxidoreductases: enzyme engineering and biocatalytic cascades for sustainable chemistry, Swiss Industrial Biocatalysis Consortium (SIBC).

Mutti, F. (speaker) (15-11-2019). Generation of amine dehydrogenases from an ε-deaminating L-lysine dehydrogenase, Dutch Biocatalysis Symposium, Amersfoort.

Mutti, F. (speaker) (2019). Sustainable chemistry via biocatalytic cascades using novel oxidoreductases, XXII SINAQO—South American Organic Chemistry Conference, Mendoza.

Mutti, F. (speaker) (27-6-2018). Maximizing the atom efficiency of redox reactions: Exploiting the exquisite selectivity of oxidoreductases, Biotech France 2018, Paris.

Mutti, F. (speaker) (16-11-2017). One-pot and atom-efficient conversion of alcohols to enantiopure amines via biocatalytic cascades, HRSMC Symposium, Amsterdam.

Mutti, F. (speaker) (2017). Biocatalytic cascades for the one-pot amination of alcohols using oxidoreductases, Biotrans 2013, Budapest.

Others

Mutti, F. (organiser) (20-11-2020). Dutch Biocatalysis Symposium 2020. Symposium (organising a conference, workshop, ...).

Mutti, F. (participant) & Tseliou, V. (participant) (20-11-2020). Dutch Biocatalysis Symposium 2020. participating in symposium (participating in a conference, workshop, ...).

Mutti, F. (participant) (3-2020). Flow Chemistry Europe 2020, Cambridge. participating in conference (participating in a conference, workshop, ...).

Mutti, F. (host) (1-3-2019 - 31-12-2019). Federico Groci (hosting a visitor).

Mutti, F. (organiser) (2019). BioTrans 2019, Groningen. International Conference on Biocatalysis, Member of the scientific organizing committee (organising a conference, workshop, ...).

Mutti, F. (host) (1-2-2017 - 31-8-2017). Alejandro Orden (hosting a visitor).
2020

Corrado, M. L. (2020). Multi‐enzymatic routes for the targeted synthesis of enantiopure vicinal amino alcohols. [details]
Downloads
Thesis (complete) (embargo until 24 June 2022)
Front matter
Chapter 1: Biocatalysis for a green and sustainable economy: General introduction (embargo until 24 June 2022)
Chapter 2: A chimeric styrene monooxygenase with increased efficiency in asymmetric biocatalytic epoxidation
Chapter 3: Regio‐ and stereoselective multi‐enzymatic aminohydroxylation of β‐methylstyrene using dioxygen, ammonia and formate
Chapter 4: One‐pot cascade for the synthesis of chiral phenylpropanolamines by pairing alcohol dehydrogenases with stereocomplementary ω‐transaminases (embargo until 24 June 2022)
Chapter 5: Multi‐enzymatic cascades for the synthesis of optically active phenylethanolamine isomers (embargo until 24 June 2022)
Chapter 6: Towards the synthesis of valuable chiral vicinal amino alcohols from potential renewable raw materials (embargo until 24 June 2022)
Summary; Samenvatting; Acknowledgements; List of publications

Tseliou, V. (2020). Expanding the catalytic activity of amine dehydrogenases: Rational enzyme engineering via computational analysis and application in organic synthesis. [details]
Downloads
Thesis (complete) (embargo until 12 May 2022)
Front matter
Chapter 1: Introduction: Substrate scope and applications of amine dehydrogenases in asymmetric synthesis of α-chiral amines (embargo until 12 May 2022)
Chapter 2: Mechanistic insight into the catalytic promiscuity of amine dehydrogenases: asymmetric synthesis of secondary and primary amines
Chapter 3: Generation of amine dehydrogenases with increased catalytic performance and substrate scope from ε-deaminating L-lysine dehydrogenase
Chapter 4: Kinetic resolution of racemic primary amines using Geobacillus stearothermophilus amine dehydrogenase variant
Chapter 5: Exploiting the catalytic promiscuity of L-lysine-ε-dehydrogenase for the enzymatic synthesis of primary alcohols and (a)chiral amines (embargo until 12 May 2022)
Chapter 6: Development of a screening methodology for idenification of (S)-selective amine dehydrogenases (embargo until 12 May 2022)
Summary; Samenvatting; Acknowledgements; List of publications

Vilím, J. (2020). Bio-catalytic cascades and molecular oxygen-accessing amines and nitriles. [details]
Downloads
Thesis (complete) (embargo until 07 October 2022)
Front matter
Chapter 1: Introduction – Biocatalytic aerobic oxidation reactions
Chapter 2: Study on the amination of alcohols using alcohol oxidases and amine dehydrogenases in cascade reactions (embargo until 07 October 2022)
Chapter 3: Reductive amination using agarose-entrapped amine dehydrogenase in a continuous flow reactor (embargo until 07 October 2022)
Chapter 4: Biocatalytic synthesis of nitriles from alcohols utilizing ammonia, air and a promiscuous galactose oxidase variant
Chapter 5: Crystallographic study on the engineered amine dehydrogenase LE-AmDH-v1 originated from Geobacillus stearothermophilus (embargo until 07 October 2022)
Chapter 6: Modular biocatalytic cascades for the production of nylon-6 monomer from cyclohexanol (embargo until 07 October 2022)
Summary; Samenvatting; Acknowledgements; List of publications

2019

Böhmer, W. (2019). Biocatalytic synthesis of α-chiral amines: Selective immobilization of enzymes and their application in batch and continuous flow. [details]
Download

Schmidt, M. (2019). Enzymatic tools for peptide ligation and cyclization: Development and applications. [details]
Downloads
Thesis (complete)
Front matter
Chapter 1: Introduction and thesis outline
Chapter 2: Omniligase-1: Design of a broadly applicable ligase for peptide ligation and cyclization
Chapter 3: Thymoligase: Design of a substrate-tailored peptiligase variant for the efficient synthesis of thymosin-α1
Chapter 4: Efficient enzymatic cyclization of disulfide-rich peptides using peptiligases
Chapter 5: Chemo-enzymatic synthesis of tricyclic peptides
Chapter 6: A one-pot “triple-C” multicyclization methodology for the synthesis of highly constrained isomerically pure tetracyclic peptides
Chapter 7: Synthesis of constrained tetracyclic peptides by consecutive CEPS, CLIPS and oxime ligation
Chapter 8: Peptide-amidase (PAM) catalyzed C-terminal peptide activation and its use in multi-fragment peptide assembly
List of abbreviations; Acknowledgments; Curriculum vitae; List of publications; International symposia
Nederlandse samenvatting
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Ancillary activities
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Dr. F. (Francesco) Mutti

2021

2020

2019

2018

2017

2016

2015

2020

2015

Award

Media appearance

Journal editor

Talk / presentation

Others

2020

2019

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