Cornelis P. Hollenberg is affiliated with Heinrich Heine University Düsseldorf in Germany. Their research primarily spans the fields of Biochemistry, Genetics and Molecular Biology, and Psychology, with particular focus on Molecular Biology and Social Psychology as subfields.
The scientist's work addresses topics including Phosphodiesterase function and regulation, Receptor Mechanisms and Signaling, and Neuroendocrine regulation and behavior. These are prominent themes evident throughout their research outputs.
Hollenberg has contributed scholarly articles in notable venues, such as Neuroscience, where their research has been published publicly.
The recent paper published in 2022 investigates protein misassembly and its impact on cognitive and social behaviors, reflecting interest in molecular mechanisms underlying neurological and psychological traits.
Frequent collaborators in Hollenberg's work include Anli Wang, Owen Y. Chao, Susanne Nikolaus, Valéria Lamounier-Zepter, and Gert Lübec. These coauthors contribute across various interdisciplinary studies linking molecular biology and social behavior research.
S. G. Oliver;Q. J. M. van der Aart;M. L. Agostoni-Carbone;M. Aigle
Roman Wieczorke;Stefanie Krampe;Thomas Weierstall;Kerstin Freidel
Eckhard Boles;Cornelis P Hollenberg
R. J Dohmen;A. W. M Strasser;C. B Höner;C. P Hollenberg
B. Dujon;D. Alexandraki;B. André;W. Ansorge
R. Kölling;C.P. Hollenberg
Peter Kötter;René Amore;Cornelis P. Hollenberg;Michael Ciriacy
Cornelis P Hollenberg;Gerd Gellissen
A.M. Ledeboer;L. Edens;J. Maat;C. Visser
Gerd Gellissen;Cornelis P. Hollenberg
C.P. Hollenberg;P. Borst;E.F.J. Van Bruggen
Rainer Roggenkamp;Hans Hansen;Michael Eckart;Zbigniew Janowicz
E Boles;F Schulte;T Miosga;K Freidel
Zbigniew A. Janowicz;Karl Melber;Armin Merckelbach;Eric Jacobs
René Amore;Peter Kötter;Christina Küster;Michael Ciriacy
Cornelis P. Hollenberg;Ernesto di Mauro
René Amore;Martin Wilhelm;Cornelis P. Hollenberg
Gerd Gellissen;Karl Melber;Zbigniew A. Janowicz;Ulrike M. Dahlems
F. T. Zenke;R. Engels;V. Vollenbroich;J. Meyer
Thomas Weierstall;Cornelis P. Hollenberg;Eckhard Boles
If you think any of the details on this page are incorrect, let us know.
Studying genetics opens doors to a wide range of rewarding careers in healthcare, research, and biotechnology. Many students explore additional online programs to complement genetics studies or expand their professional opportunities. For example, those interested in nursing can consider rn to bsn programs that do not require clinical hours—allowing greater flexibility while working toward an advanced nursing credential.
For individuals aiming for leadership roles in nursing, accelerated dnp programs offer the chance to earn a doctorate more quickly than traditional tracks. Similarly, those who wish to enter the healthcare field rapidly might pursue the fastest medical assistant program, which can lead to career entry in less than two months.
Students seeking to minimize research requirements may benefit from online dnp programs without dissertation. These alternative pathways can complement a background in genetics and enable graduates to pursue diverse healthcare positions, blending scientific knowledge with practical patient care or administration.
Center for Information Technology
Institució Catalana de Recerca i Estudis Avançats
Central Queensland University
University of Connecticut
Vanderbilt University Medical Center
Technical University of Madrid
National Center for Atmospheric Research
Bushehr University of Medical Sciences
Pirogov Russian National Research Medical University
Nanjing University of Science and Technology
Shanghai University
Ghent University
University of Miami
Baylor College of Medicine
National and Kapodistrian University of Athens
University of California, San Diego
