A47 A. Spanou, A. Moschona, E. Theodosiou, S.I. Patsios, Ι.V. Pavlidis*. Novel concepts for the biocatalytic synthesis of second-generation biodiesel. Frontiers in Catalysis, 4 (2024) doi: 10.3389/fctls.2024.1360702.

A46 A. Papanikolaou, A.V. Chatzikonstantinou, D. Zarafeta, N. Kourkoumelis, G. Skretas*, Ι.V. Pavlidis,* Haralambos Stamatis*. Substrate specificity of the highly thermostable esterase EstDZ3. ChemBioChem, 24 (2023) e202200642.

A45 N. Kaloudis, P. Zygouri, N. Chalmpes, K. Spyrou, D. Gournis, I.V. Pavlidis*. Regulation of the catalytic behavior of (S)-selective amine transaminases through interactions with graphite oxide. Frontiers in Catalysis, 1 (2022) 803850.

Α44 H. Terholsen, J. Kaur, N. Kaloudis, A. Staudt, I.V. Pavlidis, U.T. Bornscheuer*. An enzyme cascade reaction for the recovery of hydroxytyrosol derivatives from olive mill wastewater. Chemie Ingenieur Technik 94 (2022) 1860-1863.

A43 H. Terholsen, J. Kaur, N. Kaloudis, A. Staudt, H. Müller, I.V. Pavlidis, U.T. Bornscheuer*. Recovery of hydroxytyrosol from olive mill wastewater using the promiscuous hydrolase/acyltransferase PestE. ChemBioChem, 23 (2022) e202200254.

A42 E. Konia, K. Chatzicharalampous, A. Drakonaki, C. Muenke, U. Ermler, G. Tsiotis, I.V. Pavlidis* Rational engineering of Luminiphilus syltensis (R)-selective amine transaminase for the acceptance of bulky substrates. Chemical Communications, 57 (2021) 12948-12951 // 2021 Emerging Investigators.

A41 I. Metaxas, E. Michailidi, D. Stavrou, I.V. Pavlidis*. Educational reconstruction of size-depended-properties in nanotechnology for teaching in tertiary education. Chemistry Teacher International (2021) DOI: 10.1515/cti-2021-0011.

A40 Q. Tang, I. V. Pavlidis, C. Badenhorst*, U.T. Bornscheuer*. From natural methylation to versatile alkylations using halide methyltransferases. ChemBioChem 22 (2021) 2584-2590 // Issue’s front cover.

Α39 Q. Tang, C. Grathwol, A.S. Aslan-Üzel, S. Wu, A. Link, I. V. Pavlidis*, C. Badenhorst*, U.T. Bornscheuer*. Directed evolution of a halide methyltransferase enables biocatalytic synthesis of diverse SAM analogues Angewandte Chemie International Edition 60 (2021)
1524-1527.

Α38 K. Myrtollari, N. Katsoulakis, D. Zarafeta, I.V. Pavlidis, G. Skretas, I. Smonou*. Activity and specificity studies of the new thermostable esterase EstDZ2 Bioorganic Chemistry 104 (2020) Art. No. 104214.

Α37 Q. Tang, Y.M. Vianney, K. Weisz, C.W. Grathwol, A. Link, U.T. Bornscheuer*, I.V. Pavlidis*. Influence of substrate binding residues on the substrate scope and regioselectivity of a plant O-methyltransferase against flavonoids ChemCatChem 12 (2020) 3721-3727.

Α36 A. Su, S. Kiokekli, M. Naviwala, A.N. Shirke, I.V. Pavlidis*, R.A. Gross*. Cutinases as stereoselective catalysts: Specific activity and enantioselectivity of cutinases and lipases for menthol and its analogs Enzyme and Microbial Technology 133 (2020) Αrt. No. 109467.

Α35 Q. Tang, U.T. Bornscheuer*, I.V. Pavlidis*. Specific residues expand the substrate scope and enhance the regioselectivity of a plant O-methyltransferase ChemCatChem 11 (2019) 3227-3233 (Young Researchers Series, Invited).

Α34 P. Kelefiotis-Stratidakis, T. Tyrikos-Ergas, I.V. Pavlidis*. The challenge of using isopropylamine as amine donor in transaminase catalyzed reactions Organic and Biomolecular Chemistry 17 (2019) 1634-1642 (New Talent Issue, Invited).

Α33 A. Su, T. Tyrikos-Ergas, A.N. Shirke, Y. Zou, A. Dooley, I.V. Pavlidis*, R.A. Gross*. Revealing cutinases’ capabilities as enantioselective catalysts ACS Catalysis 8 (2018) 7944-7951.

Α32 D. Merker, M. Kesper, L.L. Kailing, F.W. Herberg, J.P. Reithmeier, I.V. Pavlidis, C. Popov*. Nanostructured modified ultrananocrystalline diamond surfaces as immobilization support for lipases. Diamond and Related Materials 90 (2018) 32-39.

Α31 A.W.H. Dawood, M.S. Weiß, C. Schulz, I.V. Pavlidis, H. Iding, R.O.M.A. de Souza, U.T. Bornscheuer*. Isopropylamine as amine donor in transaminase-catalyzed reactions: Better acceptance through reaction and enzyme engineering. ChemCatChem 10 (2018) 3943-3949 (Hot Topic: Biocatalysis).

Α30 N. Noby*, H. Saed*, A.M. Embaby, I.V. Pavlidis, A. Hussein. Cloning, expression and characterization of cold active esterase (EstN7) from Bacillus cohnii strain N1: a novel member of family IV International Journal of Biological Macromolecules 120 (2018) 1247-1255.

Α29 L.L. Kailing, D. Bertinetti, C.E. Paul, T. Manszewski, M. Jaskolski, F.W. Herberg, I.V. Pavlidis*. S-Adenosyl-L-homocysteine hydrolase inhibition by a synthetic nicotinamide cofactor biomimetic. Frontiers in Microbiology 9 (2018) Art. No. 505 (Research Topic: New Concepts for Co-Factor-Dependent Enzymatic Reactions).

Α28 R. Lorenz, E.-W. Moon, J.J. Kim, S. Schmidt, B. Sankaran, I.V. Pavlidis, C. Kim*, F.W. Herberg* (2017) Mutations of PKA cyclic nucleotide binding domains reveal novel aspects of cyclic nucleotide selectivity Biochemical Journal 474 (2017) 2389-2403.

A27 M.S. Weiß, I.V. Pavlidis, P. Spurr, S.P. Hanlon, B. Wirz, H. Iding*, U.T. Bornscheuer*. Amine transaminase engineering for spatially bulky substrate acceptance ChemBioChem 18 (2017) 1022-1026.

A26 L.L. Kailing, D. Bertinetti, F.W. Herberg, I.V. Pavlidis*. A coupled photometric assay for characterization of S-adenosyl-L-homocysteine hydrolases in the physiological hydrolytic direction New Biotechnology 39 (2017) 11-17.

Α25 A.M. Knight, A. Nobili, T. van den Bergh, M. Genz, H.-J. Joosten, D. Albrecht, K. Riedel, I.V. Pavlidis, U.T. Bornscheuer*. Bioinformatic analysis of fold type III PLP-dependent enzymes discovers multimeric racemases Applied Microbiology and Biotechnology 101 (2017) 1499-1507.

Α24 M.S. Weiß, I.V. Pavlidis, P. Spurr, S.P. Hanlon, B. Wirz, H. Iding*, U.T. Bornscheuer*. Protein-engineering of an amine transaminase for the stereoselective synthesis of a pharmaceutically relevant bicyclic amine Organic and Biomolecular Chemistry 14 (2016) 10249-10254.

Α23 I.V. Pavlidis, M.S. Weiß, M. Genz, P. Spurr, S.P. Hanlon, B. Wirz, H. Iding*, U.T. Bornscheuer*. Identification of (S)-selective transaminases for the asymmetric synthesis of bulky chiral amines. Nature Chemistry 8 (2016) 1076-1082.

Α22 Q. Tang, G.M. Popowicz, X. Wang, J. Liu, I.V. Pavlidis, Y. Wang*. Lipase-driven epoxidation is a two-stage synergistic process. Chemistry Select 1 (2016) 836-839.

Α21 Μ. Patila, I.V. Pavlidis, A Kouloumpis, K. Dimos, K. Spyrou, P. Katapodis, D. Gournis, H. Stamatis*. Graphene oxide derivatives with variable alkyl chain length and terminal functional groups as supports for stabilization of cytochrome c International Journal of Biological Macromolecules 84 (2016) 227-235.

A20 D. Last, J. Müller, A.W.H. Dawood, E.J. Moldenhauer, I.V. Pavlidis, U.T. Bornscheuer*. Highly efficient and easy protease-mediated protein purification Applied Microbiology and Biotechnology 100 (2016) 1945-1953.

A19 Y. Tao, R. Dong, I.V. Pavlidis, B. Chen*, T. Tan*. Using imidazolium-based ionic liquids as dual solvent-catalysts for sustainable synthesis of vitamin esters: inspiration from bio- and organo-catalysis Green Chemistry 18 (2016) 1240-1248 (Issue cover).

Α18 S. Guo, J. Xu, I.V. Pavlidis, D. Lan, U.T. Bornscheuer, J. Liu*, Y. Wang*. Structure of product-bound SMG1 lipase: active site gating implications FEBS Journal 282 (2015) 4538-4547.

Α17 Y. Tao, G. Chen, I.V. Pavlidis, Y. Jiang, L. Qie, C. Cui, L. Liu, B. Chen*, T. Tan*. Water-dependent kinetics guide complex lipase-mediated synthesis of biolubricants in a water activity control reactor. Catalysis Science & Technology 5 (2015) 5120-5128 (Issue cover).

Α16 D. Lan, G.M. Popowicz, I.V. Pavlidis, P. Zhou, U.T. Bornscheuer, Y. Wang*. Conversion of a mono- and diacylglycerol lipase into a triacylglycerol lipase by protein engineering. ChemBioChem 16 (2015) 1431-1434.

Α15 A. Nobili, Y. Tao, I.V. Pavlidis, T. van den Bergh, H.-J. Joosten, T. Tan, U.T. Bornscheuer*. Simultaneous use of in silico design and a correlated mutation network as a tool to efficiently guide enzyme engineering ChemBioChem 16 (2015) 805-810.

Α14 M.S. Weiß, I.V. Pavlidis, C. Vickers, M. Höhne*, U.T. Bornscheuer*. A glycine oxidase based high-throughput solid-phase-assay for substrate profiling and directed evolution of (R)- and (S)-selective amine transaminases Analytical Chemistry 86 (2014) 11847–11853 (ACS Editors’ choice).

Α13 I.V. Pavlidis, M. Patila, U.T. Bornscheuer, D. Gournis, H. Stamatis*. Graphene-based nanobiocatalytic systems: Recent advances and future prospects Trends in Biotechnology 32 (2014) 312-320.

Α12 S. Hackenschmidt, E.J. Moldenhauer, G.A. Behrens, M. Gand, I.V. Pavlidis, U.T. Bornscheuer*. Enhancement of promiscuous amidase activity of a Bacillus subtilis esterase by formation of a π-π network ChemCatChem 6 (2014) 1015-1020.

Α11 M. Gall, M. Thomsen, C. Peters, I.V. Pavlidis, P. Jonczyk, P.P. Grünert, S. Beutel, T. Scheper, E. Gross, M. Backes, J.P. Ley*, J.M. Hilmer, G. Krammer, G.J. Palm, W. Hinrichs, U.T. Bornscheuer*. Enzymatic conversion of flavonoids using bacterial chalcone isomerase and enoate reductase Angewandte Chemie - International Edition 53 (2014) 1429-1442.

Α10 M.G. Gall, A. Nobili, I.V. Pavlidis, U.T. Bornscheuer*. Improved thermostability of a Bacillus subtilis esterase by domain exchange Applied Microbiology and Biotechnology 98 (2014) 1719-1726.

Α9 M. Patila, I.V. Pavlidis, E. K. Diamanti, P. Katapodis, D. Gournis, H. Stamatis*. Enhancement of cytochrome c catalytic behaviour by affecting the heme environment using functionalized carbon-based nanomaterials Process Biochemistry 48 (2013) 1010-1017.

Α8 Nobili, M. G. Gall, I.V. Pavlidis, M. L. Thompson, M. Schmidt, U. T. Bornscheuer*. Use of “small but smart” libraries to enhance the enantioselectivity of an esterase from Bacillus stearothermophilus towards tetrahydrofuran-3-yl acetate. FEBS Journal 280 (2013) 3084-3093.

Α7 I.V. Pavlidis, T. Vorhaben, D. Gournis, G. K. Papadopoulos, U. T. Bornscheuer, H. Stamatis*. Regulation of catalytic behavior of hydrolases through interactions with functionalized carbon-based nanomaterials Journal of Nanoparticle Research 14 (2012) 1-10.

Α6 I.V. Pavlidis, T. Vorhaben, T. Tsoufis, P. Rudolf, U. T. Bornscheuer, D. Gournis, H. Stamatis*. Development of effective nanobiocatalytic systems through the immobilization of hydrolases on functionalized carbon-based nanomaterials Bioresource Technology 115 (2012) 164-171.

Α5 I.V. Pavlidis, K. Tzafestas, H. Stamatis*. Water-in-ionic liquid microemulsion-based organogels as novel matrices for enzyme immobilization Biotechnology Journal 5 (2010) 805-812.

Α4 I.V. Pavlidis, T. Tsoufis, A. Enotiadis, D. Gournis*, H. Stamatis*. Functionalized multi-wall carbon nanotubes for lipase immobilization Advanced Engineering Materials 10 (2010) B179-B183.

Α3 A.A. Tzialla, I.V. Pavlidis, M. Felicissimo, P. Rudolf, D. Gournis, H. Stamatis*. Lipase immobilization on smectite nanoclays: Characterization and application to the epoxidation of α-pinene Bioresource Technology 101 (2010) 1587-1594.

Α2 Ι.V. Pavlidis, D. Gournis, G.K. Papadopoulos, H. Stamatis*. Lipases in water-in-ionic liquid microemulsions. Structural and activity studies. Journal of Molecular Catalysis B: Enzymatic 60 (2009) 50-56.

Α1 E. Serefoglou, K. Litina, D. Gournis*, E. Kalogeris, A.A. Tzialla, I.V. Pavlidis, H. Stamatis*, E. Maccallini, M. Lubomska, P. Rudolf*. Smectite clays as solid supports for immobilization of β-glucosidase: Synthesis, characterization and biochemical properties. Chemistry of Materials 20 (2008) 4106-4115. 

B8 Q. Tang, A.S. Aslan-Üzel, E.D. Schuiten, C.P.S. Badenhorst*, I.V. Pavlidis*, Uwe T. Bornscheuer* Chapter 22: Enzymatic photometric assays for the selective detection of halides (2022) in Methods in Molecular Biology, Vol. 2487: Multienzymatic Assemblies (Ed. H. Stamatis), Springer, pp. TBD (accepted) ISBN: 978-1-0716-2268-1.

B7 I.V. Pavlidis. Chapter 47: Identification and evolution of biocatalysts of interest (2018) in Advanced Nanotechnologies for Detection and Defense Against CBRN Agents (Eds P. Petkov et al.), Springer, pp. 477-485, ISBN: 978-94-024-1298-7.

B6 I.V. Pavlidis, N.M. Hendrikse, P.-O. Syrén. Chapter 5: Computational techniques for efficient biocatalysis (2018) in Modern biocatalysis: Advances towards synthetic biological systems (Eds. G. Williams and M. Hall), part of RSC Catalysis Series pp. 119-152, ISBN: 978-1-78262-726-5.

B5 M. Patila, G. Orfanakis, A. Polydera, I.V. Pavlidis, H. Stamatis. Chapter 6: Graphene-based nanobiocatalytic systems (2016) in Biocatalysis & Nanotechnology (Ed. P. Grunwald), Pan Stanford Publishing, pp. 243-277 ISBN: 978-9-814-61369-9.

Β4 I.V. Pavlidis. Chapter 12: Catalysis (2016) in Graphene oxide: Fundamentals and Applications (Eds. A. Dimiev and S. Eigler), Wiley-VCH Verlag pp. 382- 409 ISBN: 978-1-119-06940-9.

B3 I.V. Pavlidis, M. Gall, T. Geissler, E. Gross, U.T. Bornscheuer. Chapter 9: Flavonoid biotechnology – New ways to high added-value products (2016) in Applied biocatalysis: from fundamental science to industrial application (Eds. A. Liese et al.) Wiley-VCH Verlag, pp.179-198 ISBN: 978-3-527-33669-2.

Β2 I.V. Pavlidis, M. Patila, A.C. Polydera, D. Gournis, H. Stamatis. Chapter 5: Immobilization of enzymes and other biomolecules on graphene (2014) in Functionalisation of graphene (Eds. V. Georgakilas) Wiley-VCH Verlag, pp.139-172 ISBN: 978-3-527-33551-0.

Β1 I.V. Pavlidis, A.A. Tzialla, A. Enotiadis, H. Stamatis, D. Gournis. Chapter 2: Enzyme immobilization on layered and nanostructured materials (2010) in Biocatalysis in polymer chemistry (Eds. K. Loos), Wiley-VCH Verlag, pp. 35-64, ISBN-10: 3-527-32618-9. 

C1 U.T. Bornscheuer, I.V. Pavlidis, M.S. Weiß, H. Iding, B. Wirz, H.P. Steven, P. Spurr (2016) Mutant transaminases as well as methods and uses relating thereto. WO2016166120 A1, US2016304843 A1.