- Seit 2023Universitätsprofessor (W2) für „Neurowissenschaftliche Grundlagen der differentiellen Psychologie“ an der TU Dortmund (freigestellt nach dem Jülicher Modell zur Forschungstätigkeit am IfADo)
- Seit 2020Nachwuchsgruppenleiter am IfADo
- 2012-2020Wissenschaftlicher Mitarbeiter, Abteilung Biopsychologie, Ruhr-Universität Bochum
- 2008–2012Doktorand, Abteilung Neurophysiologie, Max-Planck-Institut für Hirnforschung, Frankfurt am Main
- 2002–2008Psychologiestudium (Diplom), Universität Mannheim
- Neuronale Grundlagen interindividueller Unterschiede in kognitiven Funktionen und Persönlichkeit
- Anwendung von multimodalen Neuroimaging Methoden (7T, 3T EEG/fMRI, TMS/fMRI, DWI, Neurogenetik)
Hier finden Sie die Schlüsselpublikationen ab 2010, die am IfADo entstanden sind. Für alle anderen Veröffentlichungen unserer wissenschaftlichen Mitarbeiter beachten Sie bitte die Links zu anderen Datenbanken wie Pubmed oder Google Scholar.
Genç E, Metzen D, Fraenz C, Schlüter C, Voelkle MC, Arning L, Streit F, Nguyen HP, Güntürkün O, Ocklenburg S, Kumsta R:
Structural architecture and brain network efficiency link polygenic scores to intelligence. Hum Brain Mapp 44: 3359-3376 (2023)
Stammen C, Fraenz C, Grazioplene RG, Schlüter C, Merhof V, Johnson W, Güntürkün O, DeYoung CG, Genç E:
Robust associations between white matter microstructure and general intelligence. Cereb Cortex 33: 6723–6741 (2023)
Schlüter C, Fraenz C, Pinnow M, Friedrich P, Güntürkün O, Genç E:
The Structural and Functional Signature of Action Control. Psychol Sci 29: 1620-1630 (2019)
Ocklenburg S, Friedrich P, Fraenz C, Schlüter C, Beste C, Güntürkün O, Genç E:
Neurite architecture of the planum temporale predicts neurophysiological processing of auditory speech. Sci Adv 4 (7): eaar6830 (2018)
Genç E, Fraenz C, Schlüter C, Friedrich P, Hossiep R, Voelkle MC, Ling JM, Güntürkün O, Jung RE:
Diffusion markers of dendritic density and arborization in gray matter predict differences in intelligence. Nat Commun 9(1): 1905 (2018) (11 pp)
Hier finden Sie die Publikationen ab 2010, die am IfADo entstanden sind. Für alle anderen Veröffentlichungen unserer wissenschaftlichen Mitarbeiter beachten Sie bitte die Links zu anderen Datenbanken wie Pubmed oder Google Scholar.
Krieger B, Schneider-Gold C, Genç E, Güntürkün O, Prehn C, Bellenberg B, Lukas C:
Greater cortical thinning and microstructural integrity loss in myotonic dystrophy type 1 compared to myotonic dystrophy type 2. J Neurol 271: 5525–5540 (2024)
Mundorf A, Getzmann S, Gajewski PD, Larra MF, Wascher E, Genç E, Ocklenburg S:
Phenotyping in clinical laterality research: a comparison of commonly used methods to determine mixed-handedness and ambidexterity. Laterality 29:331–349 (2024)
Ghallab A, González D, Strängberg E, Hofmann U, Myllys M, Hassan R, Hobloss Z, Brackhagen L, Begher-Tibbe B, Duda JC, Drenda C, Kappenberg F, Reinders J, Friebel A, Vucur M, Turajski M, Seddek AL, Abbas T, Abdelmageed N, Morad SAF, Morad W, Hamdy A, Albrecht W, Kittana N, Assali M, Vartak N, van Thriel C, Sous A, Nell P, Villar-Fernandez M, Cadenas C, Genc E, Marchan R, Luedde T, Åkerblad P, Mattsson J, Marschall HU, Hoehme S, Stirnimann G, Schwab M, Boor P, Amann K, Schmitz J, Bräsen JH, Rahnenführer J, Edlund K, Karpen SJ, Simbrunner B, Reiberger T, Mandorfer M, Trauner M, Dawson PA, Lindström E, Hengstler JG:
Inhibition of the renal apical sodium dependent bile acid transporter prevents cholemic nephropathy in mice with obstructive cholestasis. J Hepatol 80: 268-281 (2024)
Metzen D, Stammen C, Fraenz C, Schlüter C, Johnson W, Güntürkün O, DeYoung CG, Genç E:
Investigating robust associations between functional connectivity based on graph theory and general intelligence. Sci Rep 14 (1): 1368 (2024) (18 pp)
Batsikadze G, Pakusch J, Klein M, Ernst TM, Thieme A, Nicksirat SA, Steiner KM, Nio E, Genc E, Maderwald S, Deuschl C, Merz CJ, Quick HH, Mark MD, Timmann D:
Mild deficits in fear learning: evidence from humans and mice with cerebellar cortical degeneration. eNeuro 11 (2): ENEURO.0365-23.2023 (2024) (24 pp)
Genç E, Metzen D, Fraenz C, Schlüter C, Voelkle MC, Arning L, Streit F, Nguyen HP, Güntürkün O, Ocklenburg S, Kumsta R:
Structural architecture and brain network efficiency link polygenic scores to intelligence. Hum Brain Mapp 44: 3359-3376 (2023)
Gajewski PD, Golka K, Hengstler JG, Kadhum T, Digutsch J, Genç E, Wascher E, Getzmann S:
Does physical fitness affect cognitive functions differently across adulthood? An advantage of being older. Front Psychol 14: 1134770 (2023) (14 pp)
Stammen C, Fraenz C, Grazioplene RG, Schlüter C, Merhof V, Johnson W, Güntürkün O, DeYoung CG, Genç E:
Robust associations between white matter microstructure and general intelligence. Cereb Cortex 33: 6723–6741 (2023)
Ocklenburg S, Metzen D, Schlüter C, Fraenz C, Arning L, Streit F, Güntürkün O, Kumsta R, Genç E:
Polygenic scores for handedness and their association with asymmetries in brain structure. Brain Struct Funct 227: 515–527 (2022)
Metzen D, Genç E, Getzmann S, Larra MF, Wascher E, Ocklenburg S:
Frontal and parietal EEG alpha asymmetry: a large-scale investigation of short-term reliability on distinct EEG systems. Brain Struct Funct 227: 725–740 (2022)
Gajewski PD, Getzmann S, Bröde P, Burke M, Cadenas C, Capellino S, Claus M, Genç E, Golka K, Hengstler JG, Kleinsorge T, Marchan R, Nitsche MA, Reinders J, van Thriel C, Watzl C, Wascher E:
Impact of biological and lifestyle factors on cognitive aging and work ability in the Dortmund Vital Study: Protocol of an interdisciplinary, cross-sectional, and longitudinal study. JMIR Res Protoc 11 (3): e32352 (2022) (18 pp)
Schlüter C, Fraenz C, Friedrich P, Güntürkün O, Genç E:
Neurite density imaging in amygdala nuclei reveals interindividual differences in neuroticism. Hum Brain Mapp 43: 2051-2063 (2022)
DeYoung CG, Beaty RE, Genç E, Latzman RD, Passamonti L, Servaas MN, Shackman AJ, Smillie LD, Spreng RN, Viding E, Wacker J:
Personality neuroscience: an emerging field with bright prospects. Personal Sci 3: e7269 (2022) (21 pp)
Fraenz C, Schlüter C, Friedrich P, Jung RE, Güntürkün O, Genç E:
Interindividual differences in matrix reasoning are linked to functional connectivity between brain regions nominated by Parieto-Frontal Integration Theory. Intelligence 87: 101545 (2021) (14 pp)