The research of Albert Heck is focused on the development and use of mass spectrometry to study all cellular proteins. Within his research group, there are three main lines of research, improvement of instrumentation and analytical methods, proteomics and mass spectrometry based structural biology, including nativeprotein mass spectrometry and cross-linking mass spectrometry. Albert Heck is regarded as one of the pioneers of native mass spectrometry. Among the complexes that he studied using native mass spectrometry are intact viruses of up to 18 megadalton, ribosomes, antibodies in complex with their antigens or proteins of the complement system. He has developed, in collaboration with Alexander Makarovmass spectrometers with extended mass ranges, specifically suited for the analyses of very large protein complexes, which were later later commercialized by the company ThermoFisher Scientific as the Orbitrap EMR and UHMR. In proteomics, Heck is most renowned for his work on quantitative proteomics, interactomics, and the analysis of post-translational modification of proteins using mass spectrometry, with a focus on protein phosphorylation and protein glycosylation. This started with the introduction of the material TiO2 as a method for the targeted analysis of phosphopeptides in 2004. The methods developed by Heck have been adopted by many scientists in other fields, to study how protein expression and phosphorylation are regulated in human cells and tissues by different biological processes and disease states. Additionally, he advocated the use of complementary proteases in shot-gun proteomics and he introduced and developed novel peptide fragmentation strategies to elucidate site specific post-translational modifications. The latter improves determination of peptide and protein sequence information, which is particular helpful for the analysis of glycopeptides and HLA antigens. Heck also contributed to the field of cross-linking mass spectrometry, through proteome wide cross-linking experiments, and the development of novel fragmentation methods and the software suite XlinkX. Albert Heck is closely involved in coordinating access to proteomics infrastructures in the Netherlands and in Europe. Since 2003 Heck is scientific director of the Netherlands Proteomics Centre. From 2011 to 2015 he was coordinator of PRIME-XS, and since 2019 he coordinates EPIC-XS, both collaborative projects funded by the European Union to enable access to proteomics technology for researchers throughout Europe.
Honours and awards
Heck received numerous awards and prizes for his scientific contributions. He received The KNCV golden medal in 2001, the Descartes Huygens Award of the Republique France in 2007, the Life Science Award of the German Mass Spectrometry Society in 2010 and the UePA Pioneer Proteomics Award in 2014. In 2013, Heck was awarded the Discovery Award in Proteomic Sciences from the Human Proteome Organization. Since 2014 he is a member of the European Molecular Biology Organization. In 2014, Heck was elected a member of the Royal Netherlands Academy of Arts and Sciences. In 2017, he was awarded the Spinoza Prize, the highest scientific distinction in the Netherlands for his "major contribution to the worldwide breakthrough of systematically mapping all proteins in human cells and their biological functions by means of mass spectrometry". The American Chemical Society honoured Albert Heck with the ‘Frank H. Field and Joe L. Franklin Award for Outstanding Achievements in Mass Spectrometry’ in 2015. In 2018, he received the Sir Hans Krebs Medal of the Federation of European Biochemical Societies and the Thomson Medal Award of the International Mass Spectrometry Society.
