Nencki Institute of Experimental Biology, Polish Academy of Sciences
Affiliated withPolish Academy of SciencesPolish Academy of Sciences
Research Area
Witold Konopka is associated with the Neurobiology Center at the Nencki Institute of Experimental Biology, Polish Academy of Sciences, Warsaw, Poland. He recieved his Master degree from the Faculty of Biology and Environmental Protection, University of Silesia, Katowice, Poland and a Ph.D. with „summa cum laude” from the Nencki Institute.
Dr. Konopka began to be interested in transgenic animal technology in the Laboratory of Stress Cellular Genes, Department of Tumour Biology, Institute of Oncology, Gliwice, Poland. During his doctoral studies at the Nencki Institute (under the supervision of Prof. Leszek Kaczmarek) he implemented rodent transgenesis technology at the Institute. He generated several transgenic rat lines harbouring the genetic elements of the tetracycline system to study the transcription factor AP-1. As a post-doctoral fellow (2006 to 2012) in the laboratory of Günther Schütz at the German Cancer Research Center (DKFZ), Heidelberg, Germany he studied the role of the Dicer1 gene using the mouse inducible Cre/loxP system. He showed that removing the Dicer1 gene from mouse forebrain neurons improves memory formation and additionally induces the rapid development of hyperphagic obesity.
In 2012, Dr. Konopka was appointed the head of the Laboratory of Animal Models at the Nencki Institute of Experimental Biology PAS. His research focuses on the role of microRNA and other ncRNAs in neuronal plasticity, especially in the context of the behaviour and metabolism of mice and rats.
Article Total : 1 | Year |
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![]() Publication title Cited by 1 | 2020 |
Article | Year |
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Impaired rRNA synthesis triggers homeostatic responses in hippocampal neurons. Frontiers in cellular neuroscience| PubMed ID: 24273493 | 2013 |
Hypothalamic miR-103 protects from hyperphagic obesity in mice. The Journal of neuroscience : the official journal of the Society for Neuroscience| PubMed ID: 25100599 | 2014 |
Amot and Yap1 regulate neuronal dendritic tree complexity and locomotor coordination in mice. PLoS biology| PubMed ID: 31042703 | 2019 |
Neuronal TDP-43 depletion affects activity-dependent plasticity. Neurobiology of disease| PubMed ID: 31176717 | 2019 |
IntelliCage as a tool for measuring mouse behavior - 20 years perspective. Behavioural brain research| PubMed ID: 32302617 | 2020 |