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Günther K.H. Zupanc

April 26, 2024

Günther K.H. Zupanc (born 20 October 1958) is a German-American neurobiologist, researcher, university teacher, book author, journal editor, and educational reformer. He is a Professor in the Department of Biology at Northeastern University in Boston, Massachusetts.

Günther K.H. Zupanc

Education edit

Günther Zupanc was born in Augsburg in (then) West-Germany. He graduated in Biology and Physics from the University of Regensburg (Germany) with degrees equivalent to Bachelor’s and master's degrees. He received his Ph.D. in Neurosciences from the University of California, San Diego (1990), and he was awarded the habilitation (Dr. rer. nat. habil.) in Animal Physiology from the University of Tübingen (Germany) (1995).[1][2]

Journalistic career edit

Before enrolling in college, Zupanc worked as a journalist for the Münchner Merkur, a major daily newspaper in Munich, Germany, where he specialized in science writing. He also published numerous science articles in other newspapers and magazines. For one of his articles, he was awarded first prize in the contest Reporter der Wissenschaft as Germany’s best young science writer in 1980.[3][4]

Academic career edit

Günther Zupanc was Research Assistant and Research Scientist at the Scripps Institution of Oceanography in La Jolla, California (1987–92), Junior Group Leader at the Max Planck Institute for Developmental Biology in Tübingen, Germany (1992–97), Senior Lecturer (equivalent to Associate Professor) at the University of Manchester, England (1997–2002), and Professor at the International University Bremen (later called Jacobs University Bremen) (2002–09). Since 2009 he has been Professor at Northeastern University in Boston, Massachusetts, where he also served as Chair of the Department of Biology (2009–12). Zupanc was Visiting Professor at the University of Ottawa, Canada (1994–97) and Visiting Scholar at the University of California, San Diego, the University of Chicago, the Max Planck Institute for Behavioral Physiology, the Salk Institute for Biological Studies, the Scripps Research Institute, Tufts University, Jacobs University Bremen, and the University of Virginia.

Research edit

Zupanc has made important contributions to several disciplines within biology, including neuroethology, neuroanatomy, neuroendocrinology, developmental neurobiology, and computational neuroscience.

In his early work, he showed that seasonal changes in specific behavioral patterns are paralleled by pronounced alterations in the structure of brain neurons that control these behaviors.[5]

His laboratory has extensively studied the behavior of weakly electric fish. Among others, these investigations led to the discovery of a novel behavioral pattern, the 'echo response'.[6]

As part of his efforts to establish the brown ghost knifefish (Apteronotus leptorhynchus) as a powerful model organisms for the study of behavior and neural plasticity, his laboratory performed (in collaboration with the group of Jeffrey N. Agar of the Department of Chemistry and Chemical Biology at Northeastern University) a de novo assembly, annotation, and proteomics validation of the central nervous system transcriptome of this species.[7]

Using the electric organ discharge of weakly electric fish as a neuroethological model system, Zupanc and his team were the first to employ a proteomics approach for large-scale identification of proteins involved in the development of a sexual dimorphism in behavior.[8] The results of this research have implications beyond this study, suggesting that astrocytes play an important role in the regulation of the activity of neural oscillators, including those that control a sexually dimorphic behavior.[9]

In the field of neuroendocrinology, Zupanc and his collaborators succeeded in the cloning and pharmacological characterization of the first non-mammalian somatostatin neuropeptide receptor.[10]

His laboratory developed a novel in vitro technique to trace neural connections in the brain.[11] This approach led to the discovery of numerous previously unknown connections in the brain of teleost fish.

Since the early 1990s, Zupanc’s research group has pioneered the study of adult neurogenesis (the generation of new neurons in the adult central nervous system) in teleosts. He and his wife Marianne M. Zupanc introduced labeling of mitotic cells with 5-bromo-2'-deoxyuridine (BrdU) to research on adult neurogenesis.[12] Since then, this method has been used by numerous investigators working in this area. His research group performed the first complete mapping of proliferation zones in the adult brain of any vertebrate species (1995),[13] and he and his associates introduced zebrafish (2005)[14] and tilapia (2012)[15] as model systems to study adult neurogenesis. To provide an explanation for the biological function of adult neurogenesis, he formulated the 'matching hypothesis.' According to this hypothesis, neurogenesis in the adult central nervous system is the result of the continuous generation of new muscle fibers and sensory receptor cells in the periphery.[16][17][18] To maintain a constant ratio between the peripheral motor and sensory elements on the one side, and the central elements on the other, any numerical change in the periphery prompts a corresponding numerical alteration (production or loss of neurons) in the central nervous system.

He and his team also demonstrated that the continued generation of new neurons in the adult central nervous system of teleost fish is closely linked to the enormous potential of this taxon to regenerate nervous tissue and to recover behavioral function after brain lesions and spinal cord injury.[19][20][21] By employing a proteomics approach, Zupanc and his associates performed the first large-scale analysis in teleost fish of changes in global protein expression after brain trauma and spinal cord injury. As part of this effort, the team succeeded in the identification of a large number of proteins potentially involved in the regeneration of nervous tissue.[22][23][24]

In an expansion of their research on adult neurogenesis, the laboratory of Zupanc discovered the first vertebrate organism that lacks any of the hallmarks of brain senescence common to humans and all mammalian species examined thus far.[25] In contrast to the latter, brown ghost knifefish (Apteronotus leptorhynchus) do not exhibit any significant age-related decline in stem/progenitor cell proliferation, neuronal and glial differentiation, or long-term survival of newly generated cells. The availability of this first vertebrate model of ‘negligible senescence’ provides unprecedented opportunities for a better understanding of the biology of aging and of the cellular mechanisms that protect brains from senescing.

As the first investigator in the field of adult neurogenesis, Zupanc and his laboratory succeeded in generating three-dimensional, high-resolution maps of adult stem cells and their progeny, as well as molecular profiles of these cells, in the spinal cord.[26] This work led to the development of a novel mapping approach (‘statistical mapping’), which enables researchers to produce global maps of central nervous system structures with cellular resolution. By integrating the big data set collected through such experimental work, Zupanc and his collaborators (notably Iulian Ilieş, Dávid Lehotzky, and Rifat Sipahi succeeded in building the first mathematical and computational models of stem-cell-driven tissue growth in the spinal cord during adult development and regeneration.[27][28] These models provide an important theoretical framework for better understanding tissue growth in the intact and regenerating central nervous system.

In collaboration with Rifat Sipahi, Zupanc also constructed computational models that simulate normal and tumorous tissue growth in vitro.[29][30] Using this approach, the team has provided a theoretical explanation for the seemingly paradoxical effect that in lymphoma and prostate cancer cell-death-inducing chemotherapy sometimes induces tumors, instead of suppressing them.[31]

As a translational spin-off of the basic research carried out in the laboratory of Günther Zupanc, his group developed a novel in vivo assay for screening and characterizing water-soluble anesthetic compounds.[32]

A characteristic feature of the research of Günther Zupanc is the application of a multidisciplinary approach — the techniques and concepts used in his investigations are taken from a wide range of disciplines, including molecular biology, cell biology, neuroanatomy, neurophysiology, computational neurosciences, behavioral neurobiology, analytical chemistry, biophysics, and mathematical modeling.

Editor of journals edit

Zupanc was Senior Editor of the Journal of Zoology (2007–11). After 14 years of serving as Associate Editor of the Journal of Comparative Physiology A, he became its Editor-in-Chief in 2022. In this capacity, he is only the fourth chief editor of this journal, which was founded in 1924 by the later Nobel laureate Karl von Frisch. He is also a member of the Editorial Boards of Regenerative Medicine and Developmental Neurobiology. Zupanc has edited special issues of several scientific journals, including Adult Neurogenesis: A Comparative Approach for Brain, Behavior and Evolution, Electric Fish: Model Systems for Neurobiology and Integrative and Comparative Neurobiology: Papers in Memoriam of Theodore H. Bullock (1915-2005) for Journal of Comparative Physiology A, Towards a Comparative Understanding of Adult Neurogenesis (jointly with Luca Bonfanti and Ferdinando Rossi) for European Journal of Neuroscience, and Adult Neural Stem Cells in Development, Regeneration, and Aging (jointly with James Monaghan and David L. Stocum) for Developmental Neurobiology.

Book author edit

Günther K.H. Zupanc published his first book, Fische und ihr Verhalten (1982),[33] while he was still an undergraduate student. This book appeared subsequently in an English edition under the title Fish and Their Behavior[34] and became a bestseller. Zupanc is Editor of Praktische Verhaltensbiologie (1988),[35] a laboratory manual used widely in German-speaking countries in biology education. His book Behavioral Neurobiology: An Integrative Approach (2004; third edition: 2019)[36] is the most frequently adopted text in teaching behavioral neurobiology classes in the world. In a review by the journal Integrative and Comparative Biology, it has been praised as “a milestone in the neuroethological literature”.[37]

Science policy and educational reforms edit

 
Günther Zupanc with German minister Svenja Schulze in 2015.

Günther Zupanc was among the founding faculty of the International University Bremen (subsequently Jacobs University Bremen), a unique private international university that combines features of the European Higher Education systems with the U.S. American Higher Education system. He played a leading role in defining and establishing the biology degree program at this institution. In 2009, this program received the top ranking of all universities evaluated by the Center for Higher Education Development (CHE).[38]

Zupanc has published extensively on history of science,[39][40] as well as various science policy issues, including biology teaching,[41] online education,[42] internationalization of higher education,[43] integration of undergraduate students into research,[44] student fellowships,[45] student debt,[46] privatization of higher education,[47] research assessment,[48] government funding of research,[49] university rankings,[50] ethics of part-time teaching contracts,[51] women in science,[52] collaboration in science,[53] and scientific publishing, including peer review.[54][55] Zupanc is frequently sought as a speaker and advisor on science and higher education policy.[56]


Personal life edit

Günther K.H. Zupanc is married to Dr. Marianne M. Zupanc, a microbiologist and high school teacher, with whom he has three children, Frederick, Christina, and Daniel.

Notes edit

  1. ^ "Oxford University Press | Ancillary Resource Centre | Zupanc: Behavioral Neurobiology 3e - Author Biography". www.oup.com. Retrieved 29 June 2020.
  2. ^ "Oxford University Press | Ancillary Resource Centre | Zupanc: Behavioral Neurobiology 3e - Günther K.H. Zupanc: Embrace the twists and turns, and never lose sight of your dreams". www.oup.com. Retrieved 29 June 2020.
  3. ^ "Reporter der Wissenschaft". Die Zeit. 16 May 1980. Retrieved 2 November 2016.
  4. ^ Zupanc, Günther K. H. (16 May 1980). "I. Preis beim Wettbewerb "Reporter der Wissenschaft": Seine zweite Heimat heißt "Neritica"". Die Zeit. Retrieved 2 November 2016.
  5. ^ Zupanc, G.K.H.; Heiligenberg, W.F. (1989). "Sexual maturity-dependent changes in neuronal morphology in the prepacemaker nucleus of adult weakly electric knifefish, Eigenmannia". Journal of Neuroscience. 9 (11): 3816–3827. doi:10.1523/JNEUROSCI.09-11-03816.1989. PMC 6569919. PMID 2479726.
  6. ^ Zupanc, G.K.H.; Sîrbulescu, R.F.; Nichols, A.; Ilies, I.V. (2006). "Electric interactions through chirping behavior in the weakly electric fish, Apteronotus leptorhynchus". Journal of Comparative Physiology A. 192 (2): 159–173. doi:10.1007/s00359-005-0058-5. PMID 16247622. S2CID 1968690.
  7. ^ Salisbury, G.J.P.; Sîrbulescu, R.F.; Moran, B.; Auclair, J.R.; Zupanc, G.K.H.; Agar, J.N. (2015). "The central nervous system transcriptome of the weakly electric brown ghost knifefish (Apteronotus leptorhynchus): de novo assembly, annotation, and proteomics validation". BMC Genomics. 16 (1): 166. doi:10.1186/s12864-015-1354-2. PMC 4424500. PMID 25879418.
  8. ^ Zupanc, G.K.H.; Ilieş, I.; Sîrbulescu, R.F.; Zupanc, M.M. (2014). "Large-scale identification of proteins involved in the development of a sexually dimorphic behavior". Journal of Neurophysiology. 111 (8): 1646–1654. doi:10.1152/jn.00750.2013. PMID 24478160.
  9. ^ Zupanc, G.K.H. (2020). "Development of a sexual dimorphism in a central pattern generator driving a rhythmic behavior: the role of glia-mediated potassium buffering in the pacemaker nucleus of the weakly electric fish Apteronotus leptorhynchus". Developmental Neurobiology. 80 (1–2): 6–15. doi:10.1002/dneu.22736. PMID 32090501.
  10. ^ Zupanc, G.K.H.; Siehler, S.; Jones, E.M.C.; Seuwen, K.; Furuta, H.; Hoyer, D.; Yano, H. (1999). "Molecular cloning and pharmacological characterization of a somatostatin receptor subtype in the gymnotiform fish Apteronotus albifrons". General and Comparative Endocrinology. 115 (3): 333–345. doi:10.1006/gcen.1999.7316. PMID 10480984.
  11. ^ Zupanc, G.K.H. (1998). "An in vitro technique for tracing neuronal connections in the teleost brain". Brain Research Protocols. 3 (1): 37–51. doi:10.1016/s1385-299x(98)00019-1. PMID 9767097.
  12. ^ Zupanc, G.K.H.; Zupanc, M.M. (1992). "Birth and migration of neurons in the central posterior/prepacemaker nucleus during adulthood in weakly electric knifefish, Eigenmannia sp". Proceedings of the National Academy of Sciences of the United States of America. 89 (20): 9539–9543. Bibcode:1992PNAS...89.9539Z. doi:10.1073/pnas.89.20.9539. PMC 50167. PMID 1409663.
  13. ^ Zupanc, G.K.H.; Horschke, I. (1995). "Proliferation zones in the brain of adult gymnotiform fish: a quantitative mapping study". Journal of Comparative Neurology. 353 (2): 213–233. doi:10.1002/cne.903530205. PMID 7745132. S2CID 30403718.
  14. ^ Zupanc, G.K.H.; Hinsch, K.; Gage, F.H. (2005). "Proliferation, migration, neuronal differentiation, and long-term survival of new cells in the adult brain of zebrafish". Journal of Comparative Neurology. 488 (3): 290–319. doi:10.1002/cne.20571. PMID 15952170. S2CID 12522204.
  15. ^ Teles, M.C.; Sîrbulescu, R.F.; Wellbrock, U.M.; Oliveira, R.F.; Zupanc, G.K.H. (2012). "Adult neurogenesis in the brain of the Mozambique Tilapia, Oreochromis mossambicus". Journal of Comparative Physiology A. 198 (6): 427–449. doi:10.1007/s00359-012-0721-6. hdl:10400.12/7740. PMID 22491885. S2CID 10210760.
  16. ^ Zupanc, G.K.H. (2001). "Adult neurogenesis and neuronal regeneration in teleost fish". Brain, Behavior and Evolution. 58 (5): 250–275. doi:10.1159/000057569. PMID 11978945. S2CID 39958707.
  17. ^ Zupanc, G.K.H. (2006). "Neurogenesis and neuronal regeneration in the adult fish brain". Journal of Comparative Physiology A. 192 (6): 649–670. doi:10.1007/s00359-006-0104-y. PMID 16463148. S2CID 24063389.
  18. ^ Zupanc, G.K.H. (2008). "Adult neurogenesis and neuronal regeneration in the brain of teleost fish". Journal of Physiology (Paris). 102 (4–6): 357–373. doi:10.1016/j.jphysparis.2008.10.007. PMID 18984045. S2CID 24069980.
  19. ^ Sîrbulescu, R.F.; Zupanc, G.K.H. (2011). "Spinal cord repair in regeneration-competent vertebrates: adult teleost fish as a model system". Brain Research Reviews. 67 (1–2): 73–93. doi:10.1016/j.brainresrev.2010.11.001. PMID 21059372. S2CID 28141774.
  20. ^ Zupanc, G.K.H.; Sîrbulescu, R.F. (2011). "Adult neurogenesis and neuronal regeneration in the central nervous system of teleost fish". European Journal of Neuroscience. 34 (6): 917–929. doi:10.1111/j.1460-9568.2011.07854.x. PMID 21929625. S2CID 23889436.
  21. ^ . Archived from the original on 2011-04-08. Retrieved 2011-12-07.
  22. ^ Zupanc, M.M.; Wellbrock, U.M.; Zupanc, G.K.H. (2006). "Proteome analysis identifies novel protein candidates involved in regeneration of the cerebellum of teleost fish". Proteomics. 6 (2): 677–696. doi:10.1002/pmic.200500167. PMID 16372261. S2CID 15468763.
  23. ^ Ilieş, I.; Zupanc, M.M.; Zupanc, G.K.H. (2012). "Proteome analysis reveals protein candidates involved in early stages of brain regeneration in teleost fish". Neuroscience. 219: 302–313. doi:10.1016/j.neuroscience.2012.05.028. PMID 22659563. S2CID 6850599.
  24. ^ Sîrbulescu, R.F.; Ilieş, I.; Amelung, L.; Zupanc, G.K.H. (2022). "Proteomic characterization of spontaneously regrowing spinal cord following injury in the teleost fish Apteronotus leptorhynchus, a regeneration-competent vertebrate". Journal of Comparative Physiology A. 208 (5–6): 671–706. doi:10.1007/s00359-022-01591-w. PMID 36445471. S2CID 254068160.
  25. ^ Traniello, I.M.; Sîrbulescu, R.F.; Ilieş, I.; Zupanc, G.K.H. (2014). "Age-related changes in stem cell dynamics, neurogenesis, apoptosis, and gliosis in the adult brain: a novel teleost fish model of negligible senescence". Developmental Neurobiology. 74 (5): 514–530. doi:10.1002/dneu.22145. PMID 24293183. S2CID 24904520.
  26. ^ Sîrbulescu, R.F.; Ilieş, I.; Meyer, A.; Zupanc, G.K.H. (2017). "Additive neurogenesis supported by multiple stem cell populations mediates adult spinal cord development: a spatiotemporal statistical mapping analysis in a teleost model of indeterminate growth". Developmental Neurobiology. 77 (11): 1269–1307. doi:10.1002/dneu.22511. PMID 28707354.
  27. ^ Ilieş, I.; Sipahi, R.; Zupanc, G.K.H. (2017). "Growth of adult spinal cord in knifefish: development and parametrization of a distributed model". Journal of Theoretical Biology. 437: 101–114. doi:10.1016/j.jtbi.2017.10.012. PMID 29031516.
  28. ^ Lehotzky, D.; Sipahi, R.; Zupanc, G.K.H. (2021). "Cellular automata modeling suggests symmetric stem-cell division, cell death, and cell drift as key mechanisms driving adult spinal cord growth in teleost fish". Journal of Theoretical Biology. 509: 110474. doi:10.1016/j.jtbi.2020.110474. PMID 32918922. S2CID 221643467.
  29. ^ Sipahi, R.; Zupanc, G.K.H. (2018). "Stochastic cellular automata model of neurosphere growth: roles of proliferative potential, contact inhibition, cell death, and phagocytosis". Journal of Theoretical Biology. 445: 151–165. Bibcode:2018JThBi.445..151S. doi:10.1016/j.jtbi.2018.02.025. PMID 29477556.
  30. ^ Zupanc, G.K.H.; Zupanc, F.B. (2019). "Stochastic cellular automata model of tumorous neurosphere growth: roles of developmental maturity and cell death". Journal of Theoretical Biology. 467: 100–110. Bibcode:2019JThBi.467..100Z. doi:10.1016/j.jtbi.2019.01.028. PMID 30707973. S2CID 73424886.
  31. ^ Castañón, Laura (25 February 2019). "Researchers may have discovered why some tumors grow back aggressively after radiation, chemotherapy". MedicalExpress. Retrieved 28 June 2020.
  32. ^ Eske, A.I.; Lehotzky, D. (2023). "The effect of urethane and MS-222 anesthesia on the electric organ discharge of the weakly electric fish Apteronotus leptorhynchus". Journal of Comparative Physiology A. 209 (3): 437–457. doi:10.1007/s00359-022-01606-6. PMID 36799986. S2CID 256939672.
  33. ^ Zupanc, G.K.H. "Fische und ihr Verhalten. Die Erforschung der geheimnisvollen Welt unter Wasser. Mit einem Geleitwort von Prof. Dr. Arthur Davis Hasler, vorm. Direktor des Laboratory of Limnology der Universität Wisconsin in Madison (USA). 182 pp., ISBN 3-923880-11-1. Tetra Verlag, Melle (1982)
  34. ^ Zupanc, G.K.H. "Fish and Their Behavior. How Fishes Live - Specially Written for Aquarists. Preface by Dr. Dr. h.c. Dr. h.c. Arthur Davis Hasler, Professor Emeritus at the University of Wisconsin in Madison (U.S.A.). 187 pp. 2nd edition. ISBN 3-923880-19-7. Tetra-Press, Melle (1988)
  35. ^ Zupanc, G.K.H. (Editor): Praktische Verhaltensbiologie. Mit Beiträgen von Helmut Altner, Wilhelm Beier, Christiane Buchholtz, Martin Dambach, Benno Darnhofer-Demar, Klaus Dumpert, Dierk Franck, Reinhard Gerecke, Hartmut Greven, Volker Hahn, Ernst Kullmann, Jürg Lamprecht, Martin Lindauer, Hans Machemer, Ulrich Maschwitz, Marliese Müller, Rüdiger Schröpfer, Roland Sossinka und Günther K.H. Zupanc. Series: Pareys Studientexte 61. 274 pp. ISBN 3-489-62936-1. Verlag Paul Parey, Berlin/Hamburg (1988)
  36. ^ Zupanc, G.K.H. "Behavioral Neurobiology: An Integrative Approach. Foreword by Theodore H. Bullock. Third Edition. ISBN 978-0-19-873872-5. Oxford University Press, Oxford/New York (2019)
  37. ^ Ewert, Jörg-Peter (November 2010). "Behavioral Neurobiology: An Integrative Approach, Second Edition. * Gunther K. H. Zupanc". Integrative and Comparative Biology. 50 (5): 911–912. doi:10.1093/icb/icq133.
  38. ^ . www.jacobs-university.de. Archived from the original on 30 July 2010. Retrieved 2 November 2016.
  39. ^ Zupanc, G.K.H.; Bullock, T.H. (2006). "Walter Heiligenberg: the jamming avoidance response and beyond". Journal of Comparative Physiology A. 192 (6): 561–572. doi:10.1007/s00359-006-0098-5. PMID 16645884. S2CID 6878060.
  40. ^ Zupanc, G.K.H. (2006). "Theodore H. Bullock (1915-2005) Trailblazer in neurobiology". Nature. 439 (7074): 280. Bibcode:2006Natur.439..280Z. doi:10.1038/439280a. PMID 16421559.
  41. ^ Zupanc, G. K. H. (2008). "Teaching zoology in the twenty-first century: old challenges and new opportunities". Journal of Zoology. 274 (2): 105–106. doi:10.1111/j.1469-7998.2007.00400.x.
  42. ^ Zupanc, G.K.H.: Bildung übers Internet: Billige Mittelmäßigkeit für viele, teure Exzellenz für wenige? Neue Gesellschaft/Frankfurter Hefte No. 6, 50-53 (2013)
  43. ^ Zupanc, G.K.H.; Zupanc, M.M. (2009). "Global revolutions in higher education: the international schools' perspective". The International Schools Journal. 29 (1): 50–59.
  44. ^ Zupanc, G.K.H. (2012). "Undergraduate research and inquiry-based learning: the revitalization of the Humboldtian ideals". Bioscience Education. 19: 1–11. doi:10.11120/beej.2012.19000011.
  45. ^ http://library.fes.de/pdf-files/studienfoerderung/07496.pdf [bare URL PDF]
  46. ^ Zupanc, G.K.H. "Amerika studiert sich in den Ruin: In den USA steigen die Gebühren an vielen Hochschulen exorbitant ˗ darunter leidet das ganze Land. Süddeutsche Zeitung 23, 13, 28 January 2013 (2013)
  47. ^ Zupanc, G.K.H. "Ende eines Traums. Süddeutsche Zeitung No. 4, 13, 7 January 2014 (2014)
  48. ^ Zupanc, G. K. H. (2014). "Impact beyond the impact factor". Journal of Comparative Physiology A. 200 (2): 113–116. doi:10.1007/s00359-013-0863-1. PMID 24264238.
  49. ^ Zupanc, G.K.H.; Rössler, W. (2022). "Government funding of research beyond biomedicine: challenges and opportunities for neuroethology". Journal of Comparative Physiology A. 208 (3): 443–456. doi:10.1007/s00359-022-01552-3. PMC 9123072. PMID 35536325.
  50. ^ Zupanc, G.K.H. "Überraschend Spitze. Süddeutsche Zeitung No. 264, 15, 17 November 2014 (2014)
  51. ^ (PDF). Archived from the original (PDF) on 2016-09-09. Retrieved 2017-11-30.{{cite web}}: CS1 maint: archived copy as title (link)
  52. ^ Zupanc, G.K.H. (2023). "Ruth Beutler: the woman behind Karl von Frisch". Journal of Comparative Physiology A. doi:10.1007/s00359-023-01622-0. PMC 10995083. PMID 37160433.
  53. ^ Zupanc, G.K.H. (2015). "Collaboration in the competitive world of science: lessons to be learned from William T. Keeton". Journal of Comparative Physiology A. 201 (10): 957–960. doi:10.1007/s00359-015-1013-8. PMID 26160232.
  54. ^ Zupanc, G.K.H. (2022). "Suggested reviewers: friends or foes?". Journal of Comparative Physiology A. 208 (4): 463–466. doi:10.1007/s00359-022-01553-2. PMID 35524786.
  55. ^ Zupanc, G.K.H. (2023). ""It is becoming increasingly difficult to find reviewers" — myths and facts about peer review". Journal of Comparative Physiology A. 210 (1): 1–5. doi:10.1007/s00359-023-01642-w. PMC 10266957. PMID 37318565.
  56. ^ Zupanc, Günther. "Karriere-Irrwege des Deutschen Wissenschaftssystems. 7. Hochschulpolitisches Forum der Hans-Böckler-Stiftung 2015: "Gute Arbeit an Hochschulen – die Basis für ein gutes Studium"". YouTube. Retrieved 29 June 2020.

External links edit

  • Günther K.H. Zupanc: faculty homepage
  • Laboratory of Neurobiology at Northeastern University
  • Behavioral Neurobiology: An Integrative Approach
  • Behavioral Neurobiology: An Integrative Approach: Ancillary Resource Center

April 26, 2024
günther, zupanc, born, october, 1958, german, american, neurobiologist, researcher, university, teacher, book, author, journal, editor, educational, reformer, professor, department, biology, northeastern, university, boston, massachusetts, contents, education,. Gunther K H Zupanc born 20 October 1958 is a German American neurobiologist researcher university teacher book author journal editor and educational reformer He is a Professor in the Department of Biology at Northeastern University in Boston Massachusetts Gunther K H Zupanc Contents 1 Education 2 Journalistic career 3 Academic career 4 Research 5 Editor of journals 6 Book author 7 Science policy and educational reforms 8 Personal life 9 Notes 10 External linksEducation editGunther Zupanc was born in Augsburg in then West Germany He graduated in Biology and Physics from the University of Regensburg Germany with degrees equivalent to Bachelor s and master s degrees He received his Ph D in Neurosciences from the University of California San Diego 1990 and he was awarded the habilitation Dr rer nat habil in Animal Physiology from the University of Tubingen Germany 1995 1 2 Journalistic career editBefore enrolling in college Zupanc worked as a journalist for the Munchner Merkur a major daily newspaper in Munich Germany where he specialized in science writing He also published numerous science articles in other newspapers and magazines For one of his articles he was awarded first prize in the contest Reporter der Wissenschaft as Germany s best young science writer in 1980 3 4 Academic career editGunther Zupanc was Research Assistant and Research Scientist at the Scripps Institution of Oceanography in La Jolla California 1987 92 Junior Group Leader at the Max Planck Institute for Developmental Biology in Tubingen Germany 1992 97 Senior Lecturer equivalent to Associate Professor at the University of Manchester England 1997 2002 and Professor at the International University Bremen later called Jacobs University Bremen 2002 09 Since 2009 he has been Professor at Northeastern University in Boston Massachusetts where he also served as Chair of the Department of Biology 2009 12 Zupanc was Visiting Professor at the University of Ottawa Canada 1994 97 and Visiting Scholar at the University of California San Diego the University of Chicago the Max Planck Institute for Behavioral Physiology the Salk Institute for Biological Studies the Scripps Research Institute Tufts University Jacobs University Bremen and the University of Virginia Research editZupanc has made important contributions to several disciplines within biology including neuroethology neuroanatomy neuroendocrinology developmental neurobiology and computational neuroscience In his early work he showed that seasonal changes in specific behavioral patterns are paralleled by pronounced alterations in the structure of brain neurons that control these behaviors 5 His laboratory has extensively studied the behavior of weakly electric fish Among others these investigations led to the discovery of a novel behavioral pattern the echo response 6 As part of his efforts to establish the brown ghost knifefish Apteronotus leptorhynchus as a powerful model organisms for the study of behavior and neural plasticity his laboratory performed in collaboration with the group of Jeffrey N Agar of the Department of Chemistry and Chemical Biology at Northeastern University a de novo assembly annotation and proteomics validation of the central nervous system transcriptome of this species 7 Using the electric organ discharge of weakly electric fish as a neuroethological model system Zupanc and his team were the first to employ a proteomics approach for large scale identification of proteins involved in the development of a sexual dimorphism in behavior 8 The results of this research have implications beyond this study suggesting that astrocytes play an important role in the regulation of the activity of neural oscillators including those that control a sexually dimorphic behavior 9 In the field of neuroendocrinology Zupanc and his collaborators succeeded in the cloning and pharmacological characterization of the first non mammalian somatostatin neuropeptide receptor 10 His laboratory developed a novel in vitro technique to trace neural connections in the brain 11 This approach led to the discovery of numerous previously unknown connections in the brain of teleost fish Since the early 1990s Zupanc s research group has pioneered the study of adult neurogenesis the generation of new neurons in the adult central nervous system in teleosts He and his wife Marianne M Zupanc introduced labeling of mitotic cells with 5 bromo 2 deoxyuridine BrdU to research on adult neurogenesis 12 Since then this method has been used by numerous investigators working in this area His research group performed the first complete mapping of proliferation zones in the adult brain of any vertebrate species 1995 13 and he and his associates introduced zebrafish 2005 14 and tilapia 2012 15 as model systems to study adult neurogenesis To provide an explanation for the biological function of adult neurogenesis he formulated the matching hypothesis According to this hypothesis neurogenesis in the adult central nervous system is the result of the continuous generation of new muscle fibers and sensory receptor cells in the periphery 16 17 18 To maintain a constant ratio between the peripheral motor and sensory elements on the one side and the central elements on the other any numerical change in the periphery prompts a corresponding numerical alteration production or loss of neurons in the central nervous system He and his team also demonstrated that the continued generation of new neurons in the adult central nervous system of teleost fish is closely linked to the enormous potential of this taxon to regenerate nervous tissue and to recover behavioral function after brain lesions and spinal cord injury 19 20 21 By employing a proteomics approach Zupanc and his associates performed the first large scale analysis in teleost fish of changes in global protein expression after brain trauma and spinal cord injury As part of this effort the team succeeded in the identification of a large number of proteins potentially involved in the regeneration of nervous tissue 22 23 24 In an expansion of their research on adult neurogenesis the laboratory of Zupanc discovered the first vertebrate organism that lacks any of the hallmarks of brain senescence common to humans and all mammalian species examined thus far 25 In contrast to the latter brown ghost knifefish Apteronotus leptorhynchus do not exhibit any significant age related decline in stem progenitor cell proliferation neuronal and glial differentiation or long term survival of newly generated cells The availability of this first vertebrate model of negligible senescence provides unprecedented opportunities for a better understanding of the biology of aging and of the cellular mechanisms that protect brains from senescing As the first investigator in the field of adult neurogenesis Zupanc and his laboratory succeeded in generating three dimensional high resolution maps of adult stem cells and their progeny as well as molecular profiles of these cells in the spinal cord 26 This work led to the development of a novel mapping approach statistical mapping which enables researchers to produce global maps of central nervous system structures with cellular resolution By integrating the big data set collected through such experimental work Zupanc and his collaborators notably Iulian Ilies David Lehotzky and Rifat Sipahi succeeded in building the first mathematical and computational models of stem cell driven tissue growth in the spinal cord during adult development and regeneration 27 28 These models provide an important theoretical framework for better understanding tissue growth in the intact and regenerating central nervous system In collaboration with Rifat Sipahi Zupanc also constructed computational models that simulate normal and tumorous tissue growth in vitro 29 30 Using this approach the team has provided a theoretical explanation for the seemingly paradoxical effect that in lymphoma and prostate cancer cell death inducing chemotherapy sometimes induces tumors instead of suppressing them 31 As a translational spin off of the basic research carried out in the laboratory of Gunther Zupanc his group developed a novel in vivo assay for screening and characterizing water soluble anesthetic compounds 32 A characteristic feature of the research of Gunther Zupanc is the application of a multidisciplinary approach the techniques and concepts used in his investigations are taken from a wide range of disciplines including molecular biology cell biology neuroanatomy neurophysiology computational neurosciences behavioral neurobiology analytical chemistry biophysics and mathematical modeling Editor of journals editZupanc was Senior Editor of the Journal of Zoology 2007 11 After 14 years of serving as Associate Editor of the Journal of Comparative Physiology A he became its Editor in Chief in 2022 In this capacity he is only the fourth chief editor of this journal which was founded in 1924 by the later Nobel laureate Karl von Frisch He is also a member of the Editorial Boards of Regenerative Medicine and Developmental Neurobiology Zupanc has edited special issues of several scientific journals including Adult Neurogenesis A Comparative Approach for Brain Behavior and Evolution Electric Fish Model Systems for Neurobiology and Integrative and Comparative Neurobiology Papers in Memoriam of Theodore H Bullock 1915 2005 for Journal of Comparative Physiology A Towards a Comparative Understanding of Adult Neurogenesis jointly with Luca Bonfanti and Ferdinando Rossi for European Journal of Neuroscience and Adult Neural Stem Cells in Development Regeneration and Aging jointly with James Monaghan and David L Stocum for Developmental Neurobiology Book author editGunther K H Zupanc published his first book Fische und ihr Verhalten 1982 33 while he was still an undergraduate student This book appeared subsequently in an English edition under the title Fish and Their Behavior 34 and became a bestseller Zupanc is Editor of Praktische Verhaltensbiologie 1988 35 a laboratory manual used widely in German speaking countries in biology education His book Behavioral Neurobiology An Integrative Approach 2004 third edition 2019 36 is the most frequently adopted text in teaching behavioral neurobiology classes in the world In a review by the journal Integrative and Comparative Biology it has been praised as a milestone in the neuroethological literature 37 Science policy and educational reforms edit nbsp Gunther Zupanc with German minister Svenja Schulze in 2015 Gunther Zupanc was among the founding faculty of the International University Bremen subsequently Jacobs University Bremen a unique private international university that combines features of the European Higher Education systems with the U S American Higher Education system He played a leading role in defining and establishing the biology degree program at this institution In 2009 this program received the top ranking of all universities evaluated by the Center for Higher Education Development CHE 38 Zupanc has published extensively on history of science 39 40 as well as various science policy issues including biology teaching 41 online education 42 internationalization of higher education 43 integration of undergraduate students into research 44 student fellowships 45 student debt 46 privatization of higher education 47 research assessment 48 government funding of research 49 university rankings 50 ethics of part time teaching contracts 51 women in science 52 collaboration in science 53 and scientific publishing including peer review 54 55 Zupanc is frequently sought as a speaker and advisor on science and higher education policy 56 Personal life editGunther K H Zupanc is married to Dr Marianne M Zupanc a microbiologist and high school teacher with whom he has three children Frederick Christina and Daniel Notes edit Oxford University Press Ancillary Resource Centre Zupanc Behavioral Neurobiology 3e Author Biography www oup com Retrieved 29 June 2020 Oxford University Press Ancillary Resource Centre Zupanc Behavioral Neurobiology 3e Gunther K H Zupanc Embrace the twists and turns and never lose sight of your dreams www oup com Retrieved 29 June 2020 Reporter der Wissenschaft Die Zeit 16 May 1980 Retrieved 2 November 2016 Zupanc Gunther K H 16 May 1980 I Preis beim Wettbewerb Reporter der Wissenschaft Seine zweite Heimat heisst Neritica Die Zeit Retrieved 2 November 2016 Zupanc G K H Heiligenberg W F 1989 Sexual maturity dependent changes in neuronal morphology in the prepacemaker nucleus of adult weakly electric knifefish Eigenmannia Journal of Neuroscience 9 11 3816 3827 doi 10 1523 JNEUROSCI 09 11 03816 1989 PMC 6569919 PMID 2479726 Zupanc G K H Sirbulescu R F Nichols A Ilies I V 2006 Electric interactions through chirping behavior in the weakly electric fish Apteronotus leptorhynchus Journal of Comparative Physiology A 192 2 159 173 doi 10 1007 s00359 005 0058 5 PMID 16247622 S2CID 1968690 Salisbury G J P Sirbulescu R F Moran B Auclair J R Zupanc G K H Agar J N 2015 The central nervous system transcriptome of the weakly electric brown ghost knifefish Apteronotus leptorhynchus de novo assembly annotation and proteomics validation BMC Genomics 16 1 166 doi 10 1186 s12864 015 1354 2 PMC 4424500 PMID 25879418 Zupanc G K H Ilies I Sirbulescu R F Zupanc M M 2014 Large scale identification of proteins involved in the development of a sexually dimorphic behavior Journal of Neurophysiology 111 8 1646 1654 doi 10 1152 jn 00750 2013 PMID 24478160 Zupanc G K H 2020 Development of a sexual dimorphism in a central pattern generator driving a rhythmic behavior the role of glia mediated potassium buffering in the pacemaker nucleus of the weakly electric fish Apteronotus leptorhynchus Developmental Neurobiology 80 1 2 6 15 doi 10 1002 dneu 22736 PMID 32090501 Zupanc G K H Siehler S Jones E M C Seuwen K Furuta H Hoyer D Yano H 1999 Molecular cloning and pharmacological characterization of a somatostatin receptor subtype in the gymnotiform fish Apteronotus albifrons General and Comparative Endocrinology 115 3 333 345 doi 10 1006 gcen 1999 7316 PMID 10480984 Zupanc G K H 1998 An in vitro technique for tracing neuronal connections in the teleost brain Brain Research Protocols 3 1 37 51 doi 10 1016 s1385 299x 98 00019 1 PMID 9767097 Zupanc G K H Zupanc M M 1992 Birth and migration of neurons in the central posterior prepacemaker nucleus during adulthood in weakly electric knifefish Eigenmannia sp Proceedings of the National Academy of Sciences of the United States of America 89 20 9539 9543 Bibcode 1992PNAS 89 9539Z doi 10 1073 pnas 89 20 9539 PMC 50167 PMID 1409663 Zupanc G K H Horschke I 1995 Proliferation zones in the brain of adult gymnotiform fish a quantitative mapping study Journal of Comparative Neurology 353 2 213 233 doi 10 1002 cne 903530205 PMID 7745132 S2CID 30403718 Zupanc G K H Hinsch K Gage F H 2005 Proliferation migration neuronal differentiation and long term survival of new cells in the adult brain of zebrafish Journal of Comparative Neurology 488 3 290 319 doi 10 1002 cne 20571 PMID 15952170 S2CID 12522204 Teles M C Sirbulescu R F Wellbrock U M Oliveira R F Zupanc G K H 2012 Adult neurogenesis in the brain of the Mozambique Tilapia Oreochromis mossambicus Journal of Comparative Physiology A 198 6 427 449 doi 10 1007 s00359 012 0721 6 hdl 10400 12 7740 PMID 22491885 S2CID 10210760 Zupanc G K H 2001 Adult neurogenesis and neuronal regeneration in teleost fish Brain Behavior and Evolution 58 5 250 275 doi 10 1159 000057569 PMID 11978945 S2CID 39958707 Zupanc G K H 2006 Neurogenesis and neuronal regeneration in the adult fish brain Journal of Comparative Physiology A 192 6 649 670 doi 10 1007 s00359 006 0104 y PMID 16463148 S2CID 24063389 Zupanc G K H 2008 Adult neurogenesis and neuronal regeneration in the brain of teleost fish Journal of Physiology Paris 102 4 6 357 373 doi 10 1016 j jphysparis 2008 10 007 PMID 18984045 S2CID 24069980 Sirbulescu R F Zupanc G K H 2011 Spinal cord repair in regeneration competent vertebrates adult teleost fish as a model system Brain Research Reviews 67 1 2 73 93 doi 10 1016 j brainresrev 2010 11 001 PMID 21059372 S2CID 28141774 Zupanc G K H Sirbulescu R F 2011 Adult neurogenesis and neuronal regeneration in the central nervous system of teleost fish European Journal of Neuroscience 34 6 917 929 doi 10 1111 j 1460 9568 2011 07854 x PMID 21929625 S2CID 23889436 Fish offer clues to spinal cord renewal Northeastern University News Archived from the original on 2011 04 08 Retrieved 2011 12 07 Zupanc M M Wellbrock U M Zupanc G K H 2006 Proteome analysis identifies novel protein candidates involved in regeneration of the cerebellum of teleost fish Proteomics 6 2 677 696 doi 10 1002 pmic 200500167 PMID 16372261 S2CID 15468763 Ilies I Zupanc M M Zupanc G K H 2012 Proteome analysis reveals protein candidates involved in early stages of brain regeneration in teleost fish Neuroscience 219 302 313 doi 10 1016 j neuroscience 2012 05 028 PMID 22659563 S2CID 6850599 Sirbulescu R F Ilies I Amelung L Zupanc G K H 2022 Proteomic characterization of spontaneously regrowing spinal cord following injury in the teleost fish Apteronotus leptorhynchus a regeneration competent vertebrate Journal of Comparative Physiology A 208 5 6 671 706 doi 10 1007 s00359 022 01591 w PMID 36445471 S2CID 254068160 Traniello I M Sirbulescu R F Ilies I Zupanc G K H 2014 Age related changes in stem cell dynamics neurogenesis apoptosis and gliosis in the adult brain a novel teleost fish model of negligible senescence Developmental Neurobiology 74 5 514 530 doi 10 1002 dneu 22145 PMID 24293183 S2CID 24904520 Sirbulescu R F Ilies I Meyer A Zupanc G K H 2017 Additive neurogenesis supported by multiple stem cell populations mediates adult spinal cord development a spatiotemporal statistical mapping analysis in a teleost model of indeterminate growth Developmental Neurobiology 77 11 1269 1307 doi 10 1002 dneu 22511 PMID 28707354 Ilies I Sipahi R Zupanc G K H 2017 Growth of adult spinal cord in knifefish development and parametrization of a distributed model Journal of Theoretical Biology 437 101 114 doi 10 1016 j jtbi 2017 10 012 PMID 29031516 Lehotzky D Sipahi R Zupanc G K H 2021 Cellular automata modeling suggests symmetric stem cell division cell death and cell drift as key mechanisms driving adult spinal cord growth in teleost fish Journal of Theoretical Biology 509 110474 doi 10 1016 j jtbi 2020 110474 PMID 32918922 S2CID 221643467 Sipahi R Zupanc G K H 2018 Stochastic cellular automata model of neurosphere growth roles of proliferative potential contact inhibition cell death and phagocytosis Journal of Theoretical Biology 445 151 165 Bibcode 2018JThBi 445 151S doi 10 1016 j jtbi 2018 02 025 PMID 29477556 Zupanc G K H Zupanc F B 2019 Stochastic cellular automata model of tumorous neurosphere growth roles of developmental maturity and cell death Journal of Theoretical Biology 467 100 110 Bibcode 2019JThBi 467 100Z doi 10 1016 j jtbi 2019 01 028 PMID 30707973 S2CID 73424886 Castanon Laura 25 February 2019 Researchers may have discovered why some tumors grow back aggressively after radiation chemotherapy MedicalExpress Retrieved 28 June 2020 Eske A I Lehotzky D 2023 The effect of urethane and MS 222 anesthesia on the electric organ discharge of the weakly electric fish Apteronotus leptorhynchus Journal of Comparative Physiology A 209 3 437 457 doi 10 1007 s00359 022 01606 6 PMID 36799986 S2CID 256939672 Zupanc G K H Fische und ihr Verhalten Die Erforschung der geheimnisvollen Welt unter Wasser Mit einem Geleitwort von Prof Dr Arthur Davis Hasler vorm Direktor des Laboratory of Limnology der Universitat Wisconsin in Madison USA 182 pp ISBN 3 923880 11 1 Tetra Verlag Melle 1982 Zupanc G K H Fish and Their Behavior How Fishes Live Specially Written for Aquarists Preface by Dr Dr h c Dr h c Arthur Davis Hasler Professor Emeritus at the University of Wisconsin in Madison U S A 187 pp 2nd edition ISBN 3 923880 19 7 Tetra Press Melle 1988 Zupanc G K H Editor Praktische Verhaltensbiologie Mit Beitragen von Helmut Altner Wilhelm Beier Christiane Buchholtz Martin Dambach Benno Darnhofer Demar Klaus Dumpert Dierk Franck Reinhard Gerecke Hartmut Greven Volker Hahn Ernst Kullmann Jurg Lamprecht Martin Lindauer Hans Machemer Ulrich Maschwitz Marliese Muller Rudiger Schropfer Roland Sossinka und Gunther K H Zupanc Series Pareys Studientexte 61 274 pp ISBN 3 489 62936 1 Verlag Paul Parey Berlin Hamburg 1988 Zupanc G K H Behavioral Neurobiology An Integrative Approach Foreword by Theodore H Bullock Third Edition ISBN 978 0 19 873872 5 Oxford University Press Oxford New York 2019 Ewert Jorg Peter November 2010 Behavioral Neurobiology An Integrative Approach Second Edition Gunther K H Zupanc Integrative and Comparative Biology 50 5 911 912 doi 10 1093 icb icq133 Jacobs University Inspiration is a Place www jacobs university de Archived from the original on 30 July 2010 Retrieved 2 November 2016 Zupanc G K H Bullock T H 2006 Walter Heiligenberg the jamming avoidance response and beyond Journal of Comparative Physiology A 192 6 561 572 doi 10 1007 s00359 006 0098 5 PMID 16645884 S2CID 6878060 Zupanc G K H 2006 Theodore H Bullock 1915 2005 Trailblazer in neurobiology Nature 439 7074 280 Bibcode 2006Natur 439 280Z doi 10 1038 439280a PMID 16421559 Zupanc G K H 2008 Teaching zoology in the twenty first century old challenges and new opportunities Journal of Zoology 274 2 105 106 doi 10 1111 j 1469 7998 2007 00400 x Zupanc G K H Bildung ubers Internet Billige Mittelmassigkeit fur viele teure Exzellenz fur wenige Neue Gesellschaft Frankfurter Hefte No 6 50 53 2013 Zupanc G K H Zupanc M M 2009 Global revolutions in higher education the international schools perspective The International Schools Journal 29 1 50 59 Zupanc G K H 2012 Undergraduate research and inquiry based learning the revitalization of the Humboldtian ideals Bioscience Education 19 1 11 doi 10 11120 beej 2012 19000011 http library fes de pdf files studienfoerderung 07496 pdf bare URL PDF Zupanc G K H Amerika studiert sich in den Ruin In den USA steigen die Gebuhren an vielen Hochschulen exorbitant darunter leidet das ganze Land Suddeutsche Zeitung 23 13 28 January 2013 2013 Zupanc G K H Ende eines Traums Suddeutsche Zeitung No 4 13 7 January 2014 2014 Zupanc G K H 2014 Impact beyond the impact factor Journal of Comparative Physiology A 200 2 113 116 doi 10 1007 s00359 013 0863 1 PMID 24264238 Zupanc G K H Rossler W 2022 Government funding of research beyond biomedicine challenges and opportunities for neuroethology Journal of Comparative Physiology A 208 3 443 456 doi 10 1007 s00359 022 01552 3 PMC 9123072 PMID 35536325 Zupanc G K H Uberraschend Spitze Suddeutsche Zeitung No 264 15 17 November 2014 2014 Archived copy PDF Archived from the original PDF on 2016 09 09 Retrieved 2017 11 30 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Zupanc G K H 2023 Ruth Beutler the woman behind Karl von Frisch Journal of Comparative Physiology A doi 10 1007 s00359 023 01622 0 PMC 10995083 PMID 37160433 Zupanc G K H 2015 Collaboration in the competitive world of science lessons to be learned from William T Keeton Journal of Comparative Physiology A 201 10 957 960 doi 10 1007 s00359 015 1013 8 PMID 26160232 Zupanc G K H 2022 Suggested reviewers friends or foes Journal of Comparative Physiology A 208 4 463 466 doi 10 1007 s00359 022 01553 2 PMID 35524786 Zupanc G K H 2023 It is becoming increasingly difficult to find reviewers myths and facts about peer review Journal of Comparative Physiology A 210 1 1 5 doi 10 1007 s00359 023 01642 w PMC 10266957 PMID 37318565 Zupanc Gunther Karriere Irrwege des Deutschen Wissenschaftssystems 7 Hochschulpolitisches Forum der Hans Bockler Stiftung 2015 Gute Arbeit an Hochschulen die Basis fur ein gutes Studium YouTube Retrieved 29 June 2020 External links editGunther K H Zupanc faculty homepage Laboratory of Neurobiology at Northeastern University Behavioral Neurobiology An Integrative Approach Behavioral Neurobiology An Integrative Approach Ancillary Resource Center Retrieved from https en wikipedia org w index php title Gunther K H Zupanc amp oldid 1219012075, wikipedia, wiki, book, books, library,

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