Curriculum Vitae Svein Jarle Horn October 2014 Curriculum Vitae Svein Jarle Horn Department of Chemistry, Biotechnology and Food Science Norwegian University of Life Sciences P.O. Box 5040 N-1432 Ås NORWAY Phone: 47 67232488; E-mail: svein.horn@nmbu.no Date of Birth: 28 October 1970 Citizenship: Norwegian Education 1996-2000 1995-1996 1991-1995 PhD (Dr. ing.) in Environmental Biotechnology. Title: Bioenergy from Brown seaweeds. Norwegian University of Science and Technology (NTNU), Trondheim. MSc in Biotechnology, thesis work. Title: Ammonium removal from waste water by combining nitrification to nitrite and anaerobic ammonium oxidation. Technical University of Delft, The Netherlands. MSc education (siv. ing.). The Technical University of Norway (NTH), Trondheim. Employment 2012-present Professor in BioProcess Technology at Norwegian University Life Sciences (UMB) 2009-2012 Senior scientist in Seaweed Energy Solutions AS. Processing of seaweed to bioethanol and biogas. 2005-2011 Senior researcher in the group of Vincent Eijsink. Research on chitin/chitinases, cellulose disrupting proteins, enzymatic hydrolysis of barley and BSG. From 2007 mainly work with enzymatic hydrolysis of steam-exploded lignocellulose for bioethanol production. Also involved in biogas research. 2002-2005 Post. Doc. in the group of Vincent Eijsink. Involved in research on chitinases and fish waste hydrolysis. Norwegian University Life Sciences (UMB), Dep.of Chemistry, Biotechnology and Food Science. 1996 Worked as process engineer at Kværner Water Systems, Sandefjord, Norway. This included running a pilot plant for an activated sludge process (HCR). Additional Languages: Norwegian, Swedish, Danish, English: Fluent. German, Dutch: Basic Awards: 1st place for “outstanding work and communication” made at the 16 th International Seaweed Symposium held in the Philippines in 1998 (Reference [4]). Publications (peer-reviewed journals) [1] Jetten, M.S.M., Horn, S.J., van Loosdrecht, M.C.M., 1997, Towards a more sustainable municipal wastewater treatment system. Water Science and Technology, 35(9), 171-180. [2] Moen, E., Horn, S., Ostgaard, K., 1997, Biological degradation of Ascophyllum nodosum. Journal of Applied Phycology, 9(4), 347-357. [3] Moen, E., Horn, S., Ostgaard, K., 1997, Alginate degradation during anaerobic digestion of Laminaria hyperborea stipes. Journal of Applied Phycology, 9(2), 157-166. Curriculum Vitae Svein Jarle Horn October 2014 [4] Horn, S.J., Moen, E., Ostgaard, K., 1999, Direct determination of alginate content in brown algae by near infra-red (NIR) spectroscopy. Journal of Applied Phycology, 11(1), 9-13. [5] Horn, S.J., Aasen, I.M., Ostgaard, K., 2000, Ethanol production from seaweed extract. Journal of Industrial Microbiology & Biotechnology, 25(5), 249-254. [6] Horn, S.J., Aasen, I.M., Ostgaard, K., 2000, Production of ethanol from mannitol by Zymobacter palmae. Journal of Industrial Microbiology & Biotechnology, 24(1), 51-57. [7] Horn, S.J., Ostgaard, K., 2001, Alginate lyase activity and acidogenesis during fermentation of Laminaria hyperborea. Journal of Applied Phycology, 13(2), 143-152. [8] Horn, S.J., Eijsink, V.G.H., 2004, A reliable reducing end assay for chito-oligosaccharides. Carbohydrate Polymers, 56(1), 35-39. [9] Aspmo, S.I., Horn, S.J., Eijsink, V.G.H., 2005, Enzymatic hydrolysis of Atlantic cod (Gadus morhua L.) viscera. Process Biochemistry, 40(5), 1957-1966. [10] Hoell, I.A., Klemsdal, S.S., Vaaje-Kolstad, G., Horn, S.J., Eijsink, V.G., 2005, Overexpression and characterization of a novel chitinase from Trichoderma atroviride strain P1. Biochim Biophys Acta, 1748(2), 180-90. [11] Sikorski, P., Stokke, B.T., Sorbotten, A., Varum, K.M., Horn, S.J., Eijsink, V.G., 2005, Development and application of a model for chitosan hydrolysis by a family 18 chitinase. Biopolymers, 77(5), 273-85. [12] Sorbotten, A., Horn, S.J., Eijsink, V.G., Varum, K.M., 2005, Degradation of chitosans with chitinase B from Serratia marcescens. Production of chito-oligosaccharides and insight into enzyme processivity. Febs J, 272(2), 538-49. [13] Aspmo, S.I., Horn, S.J., Eijsink, V.G.H., 2005, Use of hydrolysates from Atlantic cod (Gadus morhua L.) viscera as complex nitrogen source for lactic acid bacteria. FEMS Microbiology Letters, 248(1), 65-68. [14] Aspmo, S.I., Horn, S.J., Eijsink, V.G.H., 2005, Hydrolysates from Atlantic cod (Gadus morhua L.) viscera as components of microbial growth media. Process Biochemistry, 40(12), 3714-3722. [15] Horn, S.J., Aspmo, S.I., Eijsink, V.G.H., 2005, Growth of Lactobacillus plantarum in media containing hydrolysates of fish viscera. Journal of Applied Microbiology, 99(5), 1082-1089 [16] Vaaje-Kolstad, G., Horn, S.J., van Aalten, D.M.F., Synstad, B., Eijsink, V.G.H., 2005, The non-catalytic chitin-binding protein CBP21 from Serratia marcescens is essential for chitin degradation. Journal of Biological Chemistry, 280 (31), 28492-28497. [17] Horn, S.J., Sørlie, M., Vaaje-Kolstad, G., Norberg, A.L., Synstad, B., Vårum, K.M., Eijsink, V.G.H., 2006, Comparative studies of chitinases A, B and C from Serratia marcescens. Biocatalysis and Biotransformation, 24 (1/2), 39-53. [18] Horn, S.J., Sørbotten, A., Synstad, B., Sikorski, P., Sørlie, M., Vårum, K.M., Eijsink, V.G.H., 2006, Endo/exo mechanism and processivity of three family 18 chitinases that make up the chitinolytic machinery of Serratia marcescens. Febs Journal, 273, 491-503. [19] Sikorski, P., Sørbotten, A., Horn, S.J., Eijsink, V.G.H., Vårum, K.M, 2006, Serratia marcescens chitinases with “tunnelshaped” substrate-binding grooves show endo-activity and different degrees of processivity during enzymatic hydrolysis of chitosan, Biochemistry, 45, 9566-9574. [20] Horn, S.J., Sikorski, P, Cederkvist, J.B., Vaaje-Kolstad, G., Sørlie, M., Synstad, B., Vriend, G., Vårum, K.M., Eijsink, V.G.H., 2006, Costs and benefits of processivity in enzymatic degradation of recalcitrant polysaccharides. PNAS, 103 (48), 18089-18094. [21] Horn, S.J., Aspmo, S.I., Eijsink, V.G.H., 2007, Evaluation of different cod viscera fractions and their seasonal variation used in a growth medium for lactic acid bacteria. Enzyme and Microbial Technology, 40, 1328-1334. [22] Krokeide, I.M., Synstad, B., Gåseidnes, S., Horn, S.J., Eijsink, V.G.H., Sørlie, M., 2007, Natural Substrate Assay for Chitinases Using High Performance Liquid Chromatography: A Comparison with Existing Assays. Analytical biochemistry, 363, 128-134. [23] Synstad, B., Vaaje-Kolstad, G., Cederkvist, F.H., Saua, S.F., Horn, S.J, Eijsink, V.G.H., Sørlie, M., 2008, Natural Expression and characterization of endochitinase C from Serratia marcescens BJL200 and its purification by a one-step general chitinase purification method. Bioscience, Biotechnology, and Biochemistry. 72 (3), 715-723. [24] Treimo, J.R., Eijsink, V.G.H., Horn, S.J., 2008, Enzymatic solubilization of proteins in brewer’s spent grain. J. Agric. Food Chem,.56 (13), 5359-5365. Curriculum Vitae Svein Jarle Horn October 2014 [25] Eijsink, V.G.H., Vaaje-Kolstad, G., Vårum, K. M., Horn, S.J., 2008, Towards new enzymes for biofuels: lessons from chitinase research . Trends in Biotechnology, 26 (5), 228-235. [26] Treimo, J., Westereng, B., Horn, S.J., Forssell, P., Robertson, J., Faulds, C., Waldron, K., Buchert, J., Eijsink, V.G.H., 2009, Enzymatic solubilization of brewers’ spent grain by combined action of carbohydrases and peptidases. J. Agric. Food Chem., 57, 3316-3324. [27] Zakariassen, H., Aam, B.B., Horn, S.J., Vårum, K.M., Sørlie, M., Eijsink, V.G.H., 2009, Aromatic residues in the catalytic center of Chitinase A from Serratia marcescens affect processivity, enzyme activity and biomass-converting efficiency. Journal of Biological Chemistry, 284, 10610-10617. [28] Horn, S.J., Eijsink, V.G.H., 2010, Enzymatic hydrolysis of steam exploded hardwood using short processing times. Bioscience, Biotechnology, and Biochemistry, 74 (6), 1157-1163. [29] Vaaje-Kolstad, G., Westereng, B., Horn, S.J., Liu, Z., Zhai, H., Sørlie, M., and Eijsink, V.G.H., 2010, An Oxidative Enzyme Boosting the Enzymatic Conversion of Recalcitrant Polysaccharides. Science, 330 (6001), 219-222. [30] Horn, S.J., Nguyen, Q.D., Westereng, B., Nilsen, P., Eijsink, V.G.H., 2011, Screening of steam explosion of wheat straw for enzymatic hydrolysis and ethanol fermentation, Biomass and Bioenergy, 35 (12), 4879-4886. [31] Blomqvist, J., South, E., Tiukova, L., Haddad, Momeni, M.H., Hansson, H., Ståhlberg, J., Horn, S.J., Schnürer, J., Passoth, V., 2011, Fermentation of lignocellulosic hydrolysate by the alternative industrial ethanol yeast Dekkera bruxellensis, Letters in Applied Microbiology, 53 (1), 73-78. [32] Horn, S.J., Estevez. M.M., Nielsen, H.K., Linjordet, R., Eijsink, V.G.H., 2011, Biogas production and saccharification of Salix pretreated at different steam explosion conditions, Bioresource Technology, 102 (17), 7932-7936. [33] Forsberg, Z., Vaaje-Kolstad, G., Westereng, B., Bunæs, A.C., Stenstrøm, Y., MacKenzie, A., Sørlie, M., Horn, S.J., Eijsink, V.G.H., 2011, Cleavage of cellulose by a CBM33 protein, Protein Science, 20 (9), 1479-1483. [34] Westereng, B, Ishida, T, Vaaje-Kolstad, G, Wu, M., Eijsink, V.G.H., Igarashi, K, Samejima, M., Stålberg, J., Horn, S.J., Sandgren , M. 2011, The putative endoglucanase PcGH61D from Phanerochaete chrysosporium is a metal-dependent oxidative enzyme that cleaves cellulose, PLoS ONE, 6(11): e27807. [35] Vivekanand, V., Eijsink, V.G.H., Horn, S.J., 2012, Biogas production from the brown seaweed Saccharina latissima: thermal pretreatment and co-digestion with wheat straw, Journal of Applied Phycology, 24 (5), 1295-1301. [36] Schütt, F., Westereng, B., Horn, S.J., Puls, J., Saake, B., 2012, Steam refining as an alternative to steam explosion, Bioresource Technology, 111, 476-481. [37] Horn, S.J., Sørlie, M., Vårum, K.M., Väljamäe, P., Eijsink, V.G.H., 2012, Measuring processivity, Methods in Enzymology, 510, 69-96. [38] Horn, S.J., Vaaje-Kolstad, G., Westereng, B., Eijsink, V.G.H., 2012, Novel enzymes for the degradation of cellulose, Biotechnology for Biofuels, 5, 45. [39] Vivekanand,V., Ryden,P., Horn, S.J., Tapp, H.S., Wellnerd, N., Eijsink, V.G.H., Waldron, K.W., 2012, Impact of steam explosion on biogas production from rape straw in relation to changes in chemical composition, Bioresource Technology, 123, 608-615. [40] Payne, C.M., Baban, J., Horn, S.J., Backe, P.H., Arvai, A.S., Dalhus, B., Bjørås, M., Eijsink, V.G.H., Sørlie, M., Beckham, G.T., Vaaje-Kolstad, G., 2012, Hallmarks of processivity in glycoside hydrolases from crystallographic and computational studies of the Serratia marcescens chitinases, Journal of Biological Chemistry, 287, 36322-36330. [41] Westereng, B., Agger, J.W., Horn, S.J., Vaaje-Kolstad, G., Aachmann, F.L., Stenstrøm, Y.H., Eijsink, V.G.H., 2013, Efficient separation of oxidized cello-oligosaccharides generated by cellulose degrading lytic polysaccharide monooxygenases, Journal of Chromatography A, 1271, 144-152. [42] Pope, P.B., Vivekanand, V., Eijsink, V.G.H., Horn, S.J., 2013, Microbial Community Structure in a Biogas Digester Utilizing the Marine Energy Crop Saccharina latissima, 3 Biotech, 3, 407-414. [43] Vivekanand, V., Olsen, E.F., Eijsink, V.G.H., Horn, S.J., 2013, Effect of different steam explosion conditions on methane potential and enzymatic saccharification of birch, Bioresource Technology, 127, 343-349. [44] Wu, M., Beckham, G.T., Larsson, A.M., Ishida, T., Kim, S., Crowley, M.F., Payne, C.M., Horn, S.J., Westereng, B., Ståhlberg, J., Eijsink, V.G.H., Sandgren, M., 2013, Structural and computational characterization of the lytic polysaccharide Curriculum Vitae Svein Jarle Horn October 2014 monooxygenase GH61D from the basidiomycota fungus Phanerochaete chrysosporium, Journal of Biological Chemistry, 288, 12828-12839. [45] Vaaje-Kolstad, G., Horn, S.J., Sørlie, M., Eijsink, V.G.H., 2013,The chitinolytic machinery of Serratia marcescens – a model system for enzymatic degradation of recalcitrant polysaccharides, FEBS Journal, 280, 3028-3049. [46] Risberg, K., Suna, L., Levén, L., Horn, S.J., Schnürer, A., 2013, Biogas production from wheat straw and manure – impact of pretreatment and process operating parameters. Bioresource Technology,149, 232-237. [47] Tiukova, I., de Barros Pita, W., Sundell, D., Haddad momeni, M., Horn, S.J., Ståhlberg, J., de Morais Jr., M.A., Passoth, V., 2014, Adaptation of Dekkera bruxellensis to lignocellulose-based substrate. Biotechnol Appl Biochem, 61 (1), 51-57. [48] Agger, J. W., Eijsink, V.G.H., Horn, S.J., 2014, On the determination of water content in biomass. Bioenerg. Res., 7, 442-449. [49] Isaksen, T., Westereng, B., Aachmann, F.L., Agger, J.W., Ludwig, R., Haltrich, D., Eijsink, V.G.H., Horn, S.J., 2014, A C4-oxidizing lytic polysaccharide monooxygenase cleaving both cellulose and cello-oligosaccharides, 289, 2632-2642. [50] Ryden, P., Gautier, A., Wellner, N., Tapp, H.S., Horn, S.J., Eijsink, V.G.H., Waldron, K.W., 2014, Changes in the composition of the main polysaccharide groups of oil seed rape straw following steam explosion and saccharification. Biomass and Bioenergy, 61, 121-130. [51] Vivekanand, V., Olsen, E.F., Eijsink, V.G.H., Horn, S.J., 2014, Methane potential and enzymatic saccharification of steam exploded bagasse. BioResources, 9(1), 1311-1324. [52] Agger, J.W., Isaksen, T., Várnai, A., Vidal-Melgosa, S., Willats, W.G.T., Ludwig, R., Horn, S.J., Eijsink, V.G.H., Westereng, B., 2014, Discovery of LPMO activity on hemicelluloses shows the importance of oxidative processes in plant cell wall degradation. PNAS, 111(17), 6287-6292. [53] Estevez. M.M., Linjordet, R., Horn, S.J., Morken, J., 2014, Improving nutrient fixation and dry matter content of an ammonium-rich anaerobic digestion effluent by struvite formation and clay adsorption. Water Science and Technology, 70(2):337-344. [54] Bauer, A., Lizasoain, J., Theuretzbacher, F., Agger, J.W., Rincón, M., Menardo, S., Saylor, M.K., Enguidanos, R., Nilsen, P.J., Gronauer, A., Horn, S.J., 2014, Steam explosion pretreatment for enhancing biogas production of late harvested hay. Bioresource Technology, 166, 403-410. [55] Hagen, L.H., Vivekanand, V., Linjordet, R., Pope, P.B., Eijsink, V.G.H., Horn, S.J., 2014, Microbial community structure and dynamics during co-digestion of whey and cow manure in CSTR systems. Bioresource Technology, 171: 350359. [56] Solli, L., Håvelsrud, O.E., Horn, S.J., Rike, A.G., 2014, Metagenomic characterization of the microbial communities in parallel biogas reactors co-digesting fish ensilage and manure. Biotechnology for Biofuels, in press. [57] Liu, Z., Penman, G., Gay, L.M., Westereng, B., Mathiesen, G., Horn, S.J., Vaaje-Kolstad, G., Van Aalten, D.M.F., Eijsink, V.G.H., 2014, Structure and function of a broad-specificity chitin deacetylase from Aspergillus nidulans FGSC A4. Manuscript. [58] Treimo, J., Westereng, B., Horn, S.J., Forssell, P., Robertson, J., Faulds, C., Waldron, K., Buchert, J., Eijsink, V.G.H., 2014, Comparison of enzymatic hydrolyzability of proteins and polysaccharides in brewers` spent grain from different European breweries. Manuscript. Books/Book Chapters Horn, S.J., 2009, Seaweed Biofuels: Production of Biogas and Bioethanol from Brown Macroalgae. VDM Verlag. ISBN 9783-639-15307-1. Horn, S.J., 2013, A tetra transition away from fossil fuels. In: The changing environment for human security: Transformative Approaches to Research, Policy, and Action. Eds. O’Brien, K., Sygna, L. and Wolf, J. London: Routledge-Earthscan, 392401.
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