Jens Nielsen
Jens Nielsen is a Professor of Systems Biology at Chalmers University of Technology, Gothenburg, Sweden. He is also Chief Science Officer at the Novo Nordisk Foundation Center for Biosustainability at the Technical University of Denmark. He is considered one of the leaders in the field of metabolic engineering, and he is the founding president of the International Metabolic Engineering Society.
Education and academic career
Nielsen has an MSc degree in Chemical Engineering and a PhD degree in Biochemical Engineering from the Danish Technical University, and after that established his independent research group and was appointed full Professor there in 1998. He was Fulbright visiting professor at MIT in 1995–1996. At DTU he founded and directed Center for Microbial Biotechnology.In 2008 he was recruited as Professor and Director to Chalmers University of Technology, Sweden, where he is currently directing a research group of more than 60 people. At Chalmers he established the Area of Advance Life Science Engineering, a cross departmental strategic research initiative and was founding Head of the Department of Biology and Biological Engineering, which now encompass about 200 people.
Nielsen has published so far more than 550 research papers, co-authored more than 40 books and he is inventor of more than 50 patents. He was identified by Thompson Reuter as a highly cited researcher in 2015 and 2016. He is co-author of several textbooks, and his textbook on Bioreaction Engineering Principles has been published in three editions and his textbook on Metabolic Engineering has been translated to both Chinese and Japanese.
Research
Nielsen has been studying and engineering metabolism for almost 30 years. His work has produced, among other, natural rare molecules, antibiotics and biofuels. The scope of this work is to be able to produce valuable compounds in an environmentally friendly and sustainable way that does not depend on petrol processing or extraction from endangered plant species. He is also using his unique approach and methods to study metabolism in humans, with specific interest in metabolic diseases such as type 2 diabetes, obesity, cardiovascular disease and various cancers.Industrial microbiology
Nielsen has worked on studying and improving many different industrial biotechnological processes. Initially he worked on physiological characterization of the filamentous fungus Penicillium chrysogenum that is used for penicillin production. This resulted in continued work, together with the Dutch company DSM, on development of a novel process for production of adipoyl-7-ADCA, a precursor for cephalexin. He also worked on characterization of many other fermentation processes used for antibiotics production, and through the use of his experimental and modelling techniques he assisted several companies with improving their production process. Nielsen also worked on improving fermentation processed used for production of industrial enzymes, both using fungi and bacteria.Metabolic engineering
In connection with his work on improving many classical and new fermentation processed Nielsen developed a number of experimental and computational tools that today is the foundation for metabolic engineering, the directed genetic modification of cells with the objective of improving the phenotype. He was the first to use gas-chromatography mass-spectrometry improved ethanol production by yeast and reduced glycerol formation as a by-product, 2) improved the temperature tolerance of yeast which has enabled ethanol production at elevated temperatures and thereby reduced costs, 3) production of a range of different chemicals using engineered yeast such as resveratrol, 3-hydroxypropionic acid, human haemoglobin, fatty acid ethyl esters, short chain fatty acids, alkanes, fatty alcohols, santalene, farnesene, coumaric acid and ornithine.Systems biology of industrial microorganisms
Nielsen has pioneered the development of systems biology tools for industrial microorganisms. He has developed genome-scale metabolic models for many important industrial microorganisms, including yeast, Lactococcus lactis, Streptomyces coelicolor, Aspergillus oryzae, Aspergillus niger, Penicilium chrysogenum and Pichia pastoris. Nielsen has also developed a number of tools for performing integrative omics analysis, and he was the first to demonstrate how transcriptome data could be integrated in the context of GEMs in order to gain insight into co-regulation. He has also developed methods for performing quantitative metabolome analysis of many microorganisms as well as he has been involved in genome-sequencing of several key industrial microorganisms.Human metabolism
Using his systems biology toolbox developed for microorganisms, Nielsen initiated work on human metabolism. In connection with this he developed a comprehensive genome-scale metabolic model for human cells and he was the first to use a human GEM to illustrate the metabolic heterogeneity of cancer metabolism. His work on human metabolism has involved studies of different diseases such as obesity, NAFLD and NASH, and hepatocellular carcinoma. Nielsen further used human GEMs to identify that combined measurements of several glycosaminoglycans can be used as a very strong biomarker for clear cell renal cell carcinoma, probably the first systems biomarker.Gut microbiota
Nielsen has also used his systems biology competence to study the metabolism of the gut microbiota. He was involved in early studies on using metagenome sequencing for characterization of the gut microbiota and demonstrate that variations are associated with cardiovascular disease and type 2 diabetes. He also used his advanced metabolic modelling skills to gain further functional insight into how the gut microbiota impacts changes in plasma metabolomics in response to dietary changes.Awards
- Novozymes Prize, Novo Nordisk Foundation, Denmark
- Gaden Award, American Chemical Society, USA
- Norblad-Exstrand Medalj, The Swedish Chemical Society, Sweden
- Nature Award for Mentoring, Nature Publishing Group, UK
- Charles D. Scott Award 2012, Symposium on Biotechnology for Fuels and Chemicals, USA
- Amgen Biochemical Engineering Award, USA
- Merck Award for Metabolic Engineering, USA
- Villum Kann Rasmussen's Årslegat, Villum Kann Rasmussen Fonden, Denmark
- Aksel Tovborg Jensens Legat, Bjerrum-Brøndsted-Lang Lecture, Carlsberg Foundation, Denmark
- STVFs Jubilæumspris, Statens Teknisk Videnskabelige Forskningsråd, Denmark
- Ulrik Brinch og Hustru Marie Brinch's legat, Denmark
- Direktør Gorm Petersen's Mindelegat, Denmark
Academies
- Foreign associate of the US National Academy of Sciences
- Member of the Royal Swedish Academy of Sciences, Sweden
- Fellow of the American Academy of Microbiology, USA
- Member of Royal Society of Arts and Sciences in Gothenburg, Sweden
- College of Fellows of American Institute for Medical and Biological Engineering, USA
- Member of the Royal Swedish Academy of Engineering Sciences, Sweden
- Member of the Royal Danish Academy of Science and Letters, Denmark
- Foreign Associate of the National Academy of Engineering, USA
- Member of the Academy of Technical Sciences, Denmark
Other major honors
- Zhang Dayu Lectureship, Dalian Institute for Chemical Physics, Chinese Academy of Sciences, China
- Honorary Professor, Beijing University of Chemical Technology, Beijing, China
- William Chalmers Lecture, Chalmers University of Technology, Sweden
- Appointed as Wallenberg Scholar, Sweden
- Hough Memorial Lecture, Birmingham University, UK
- Sunner Memorial Lecture, Lund University, Sweden
- Fulbright Fellow, USA
Companies