Overview
Background
BSc in Biology (1988) Umea University, Sweden
PhD in Molecular Biology (1994), Umea University, Sweden. Supervisor: Thomas Edlund
Postdoc, Molecular Neurobiology (1994-1999) Salk Institute, La Jolla, USA. Mentor: John B. Thomas
Assistant Professor (1999-2004), Harvard Medical School, Boston, USA
Professor of Developmental Biology (2004-2019), Linkoping University, Sweden
Professor of Developmental Biology (2019-), University of Queensland, Brisbane, Australia
Member of the Royal Swedish Academy of Sciences (2013-)
Availability
- Professor Stefan Thor is:
- Available for supervision
Qualifications
- Doctor of Philosophy, Institution to be confirmed
Works
Search Professor Stefan Thor’s works on UQ eSpace
2019
Journal Article
PIP degron-stabilized Dacapo/p21Cip1 and mutations in ago act in an anti- versus pro-proliferative manner, yet both trigger an increase in Cyclin E levels
Bivik Stadler, Caroline, Arefin, Badrul, Ekman, Helen and Thor, Stefan (2019). PIP degron-stabilized Dacapo/p21Cip1 and mutations in ago act in an anti- versus pro-proliferative manner, yet both trigger an increase in Cyclin E levels. Development, 146 (13) dev175927, dev175927. doi: 10.1242/dev.175927
2019
Journal Article
Anterior CNS expansion driven by brain transcription factors
Curt, Jesús Rodriguez, Salmani, Behzad Yaghmaeian and Thor, Stefan (2019). Anterior CNS expansion driven by brain transcription factors. eLife, 8 e45274, e45274. doi: 10.7554/elife.45274
2019
Journal Article
A branching gene regulatory network dictating different aspects of a neuronal cell identity
Stratmann, Johannes, Ekman, Helen and Thor, Stefan (2019). A branching gene regulatory network dictating different aspects of a neuronal cell identity. Development, 146 (6) dev174300, dev174300. doi: 10.1242/dev.174300
2019
Journal Article
Brain expansion promoted by polycomb-mediated anterior enhancement of a neural stem cell proliferation program
Bahrampour, Shahrzad, Jonsson, Carolin and Thor, Stefan (2019). Brain expansion promoted by polycomb-mediated anterior enhancement of a neural stem cell proliferation program. PLoS biology, 17 (2) e3000163, e3000163. doi: 10.1371/journal.pbio.3000163
2018
Journal Article
Specification of Drosophila neuropeptidergic neurons by the splicing component brr2
Monedero Cobeta, Ignacio, Stadler, Caroline Bivik, Li, Jin, Yu, Peng, Thor, Stefan and Benito-Sipos, Jonathan (2018). Specification of Drosophila neuropeptidergic neurons by the splicing component brr2. PLoS Genetics, 14 (8) e1007496, e1007496. doi: 10.1371/journal.pgen.1007496
2018
Journal Article
Aggregated A beta 1-42 is selectively toxic for neurons, whereas glial cells produce mature fibrils with low toxicity in Drosophila
Jonson, Maria, Nystrom, Sofie, Sandberg, Alexander, Carlback, Marcus, Michno, Wojciech, Hanrieder, Jorg, Starkenberg, Annika, Nilsson, K. Peter R., Thor, Stefan and Hammarstrom, Per (2018). Aggregated A beta 1-42 is selectively toxic for neurons, whereas glial cells produce mature fibrils with low toxicity in Drosophila. Cell Chemical Biology, 25 (5), 595-610.e5. doi: 10.1016/j.chembiol.2018.03.006
2018
Journal Article
Evolutionarily conserved anterior expansion of the central nervous system promoted by a common PcG-Hox program
Salmani, Behzad Yaghmaeian, Cobeta, Ignacio Monedero, Rakar, Jonathan, Bauer, Susanne, Curt, Jesus Rodriguez, Starkenberg, Annika and Thor, Stefan (2018). Evolutionarily conserved anterior expansion of the central nervous system promoted by a common PcG-Hox program. Development, 145 (7) dev160747, dev160747. doi: 10.1242/dev.160747
2017
Journal Article
Neural lineage progression controlled by a temporal proliferation program
Bahrampour, Shahrzad, Gunnar, Erika, Jonsson, Carolin, Ekman, Helen and Thor, Stefan (2017). Neural lineage progression controlled by a temporal proliferation program. Developmental Cell, 43 (3), 332-348.e4. doi: 10.1016/j.devcel.2017.10.004
2017
Journal Article
Bar-coding neurodegeneration: identifying subcellular effects of human neurodegenerative disease proteins using Drosophila leg neurons
Fernius, Josefin, Starkenberg, Annika and Thor, Stefan (2017). Bar-coding neurodegeneration: identifying subcellular effects of human neurodegenerative disease proteins using Drosophila leg neurons. Disease Models and Mechanisms, 10 (8), 1027-1038. doi: 10.1242/dmm.029637
2017
Journal Article
Human TTBK1, TTBK2 and MARK1 kinase toxicity in Drosophila melanogaster is exacerbated by co-expression of human Tau
Fernius, Josefin, Starkenberg, Annika, Pokrzywa, Malgorzata and Thor, Stefan (2017). Human TTBK1, TTBK2 and MARK1 kinase toxicity in Drosophila melanogaster is exacerbated by co-expression of human Tau. Biology Open, 6 (7), 1013-1023. doi: 10.1242/bio.022749
2017
Journal Article
Nervous system development: temporal patterning of large neural lineages
Thor, Stefan (2017). Nervous system development: temporal patterning of large neural lineages. Current Biology, 27 (10), R392-R394. doi: 10.1016/j.cub.2017.03.070
2017
Journal Article
Anterior-posterior gradient in neural stem and daughter cell proliferation governed by spatial and temporal Hox control
Cobeta, Ignacio Monedero, Salmani, Behzad Yaghmaeian and Thor, Stefan (2017). Anterior-posterior gradient in neural stem and daughter cell proliferation governed by spatial and temporal Hox control. Current Biology, 27 (8), 1161-1172. doi: 10.1016/j.cub.2017.03.023
2017
Journal Article
Neuronal cell fate specification by the molecular convergence of different spatio-temporal cues on a common initiator terminal selector gene
Stratmann, Johannes and Thor, Stefan (2017). Neuronal cell fate specification by the molecular convergence of different spatio-temporal cues on a common initiator terminal selector gene. PLoS Genetics, 13 (4) e1006729, e1006729. doi: 10.1371/journal.pgen.1006729
2017
Book Chapter
From stem cell to unique neuron: combinatorial codes, feedforward loops and target-derived signals – an outlook from the Drosophila apterous neurons
Thor, S and Stratmann, J (2017). From stem cell to unique neuron: combinatorial codes, feedforward loops and target-derived signals – an outlook from the Drosophila apterous neurons. Reference module in neuroscience and biobehavioral psychology. (pp. 1-11) Amsterdam: Elsevier. doi: 10.1016/B978-0-12-809324-5.02415-9
2016
Journal Article
Neuronal cell fate diversification controlled by sub-temporal action of Kruppel
Stratmann, Johannes, Gabilondo, Hugo, Benito-Sipos, Jonathan and Thor, Stefan (2016). Neuronal cell fate diversification controlled by sub-temporal action of Kruppel. Elife, 5 e19311. doi: 10.7554/eLife.19311
2016
Journal Article
Ctr9, a key component of the Paf1 complex, affects proliferation and terminal differentiation in the developing Drosophila nervous system
Bahrampour, Shahrzad and Thor, Stefan (2016). Ctr9, a key component of the Paf1 complex, affects proliferation and terminal differentiation in the developing Drosophila nervous system. G3: Genes, Genomes, Genetics, 6 (10), 3229-3239. doi: 10.1534/g3.116.034231
2016
Journal Article
Neuronal cell fate specification by the convergence of different spatiotemporal cues on a common terminal selector cascade
Gabilondo, Hugo, Stratmann, Johannes, Rubio-Ferrera, Irene, Millan-Crespo, Irene, Contero-Garcia, Patricia, Bahrampour, Shahrzad, Thor, Stefan and Benito-Sipos, Jonathan (2016). Neuronal cell fate specification by the convergence of different spatiotemporal cues on a common terminal selector cascade. PLoS Biology, 14 (5) e1002450, e1002450. doi: 10.1371/journal.pbio.1002450
2016
Journal Article
Control of neural daughter cell proliferation by multi-level notch/Su(H)/E(spl)-HLH signaling
Bivik, Caroline, MacDonald, Ryan B., Gunnar, Erika, Mazouni, Khalil, Schweisguth, Francois and Thor, Stefan (2016). Control of neural daughter cell proliferation by multi-level notch/Su(H)/E(spl)-HLH signaling. Plos Genetics, 12 (4) e1005984, e1005984. doi: 10.1371/journal.pgen.1005984
2016
Journal Article
Sequoia controls the type I>0 daughter proliferation switch in the developing Drosophila nervous systems
Gunnar, Erika, Bivik, Caroline, Starkenberg, Annika and Thor, Stefan (2016). Sequoia controls the type I>0 daughter proliferation switch in the developing Drosophila nervous systems. Journal of Cell Science, 143 (20), 3774-3784. doi: 10.1242/dev.139998
2016
Book Chapter
Advances in understanding the generation and specification of unique neuronal sub-types from Drosophila neuropeptidergic neurons
Thor, Stefan and Allan, Douglas W. (2016). Advances in understanding the generation and specification of unique neuronal sub-types from Drosophila neuropeptidergic neurons. Organogenetic gene networks: genetic control of organ formation. (pp. 57-93) edited by James Castelli-Gair Hombría and Paola Bovolenta. Cham, Switzerland: Springer. doi: 10.1007/978-3-319-42767-6_3
Supervision
Availability
- Professor Stefan Thor is:
- Available for supervision
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Available projects
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The role of the hypothalamic neuropeptide Npvf in mouse fertility and sleep-wake behaviours
The hypothalamic neuropeptide Npvf is expressed by a very small subset of neurons within the hypothalamus. Npvf has been implicated in fertility, seasonal mating behaviour and sleep-wake behaviours, in several different mammalian species, as well as in the zebrafish. But these studies have been based upon correlative experiments, RNAi and peptide injections, and the Npvf gene has hitherto not beek knocked out. we have geneerated a condititional null allele of Npvf. This project aims to address the effect of a null mutation in Npvf upon a set of mouse behaviours.
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The role of the mouse Tead1/Vgll2 transcription factors in dictating hypothalamic cell fate
The hypothalamic neuropeptide Npvf is expressed by a very small subset of neurons within the hypothalamus. Npvf has been implicated in fertility, seasonal mating behaviour and sleep-wake behaviours. Using single cell transcriptional profiling, we and others have identified the transcription factors Tead1 and Vgll2 as selectively expressed in Npvf neurons in the mouse hypothalamus. The Tead and Vgll families typically interact and form a complex. We have generated a mouse Tead1 knock-out, and found that the Npvf neurons are missing. The project aims to address the underlying reason for the phenotype. We are also in the process of obtaining the mouse Vgll2 knockout, to be able to compare the effects of this knock-out with that of Tead1.
Supervision history
Current supervision
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Doctor Philosophy
Generating complex brain organoids from human stem cells
Principal Advisor
Other advisors: Professor Michael Piper, Professor Ernst Wolvetang
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Doctor Philosophy
Developing an in vitro human sleep system
Principal Advisor
Other advisors: Professor Michael Piper, Professor Ernst Wolvetang
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Doctor Philosophy
Decoding the genetic pathways governing cell diversity in the mammalian hypothalamus
Principal Advisor
Other advisors: Professor Michael Piper, Professor Mikael Boden
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Doctor Philosophy
Generating hypothalamic neurons from human stem cells
Principal Advisor
Other advisors: Professor Michael Piper, Professor Ernst Wolvetang
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Doctor Philosophy
Bioinformatics of epigenetics at multiple scales: from evolution of epigenetic factors to tracing their marks in organellar development
Associate Advisor
Other advisors: Professor Mikael Boden
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Doctor Philosophy
How SETD2 shapes cortical development
Associate Advisor
Other advisors: Professor Mikael Boden, Professor Michael Piper
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Doctor Philosophy
The role of transcription factor Tead1 in cortical development
Associate Advisor
Other advisors: Professor Michael Piper
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Doctor Philosophy
Understanding cell state changes during metamorphosis in Amphimedon queenslandica
Associate Advisor
Other advisors: Professor Sandie Degnan, Professor Bernard Degnan
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Doctor Philosophy
Elucidating the role of Human Aminoacyl multi- tRNA synthetase complex (MSC) in Hypomyelination with brainstem and spinal cord involvement and leg spasticity (HBSL)
Associate Advisor
Other advisors: Professor Jessica Mar, Professor Ernst Wolvetang
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Doctor Philosophy
Do cell types exist in a continuum? Single-cell bioinformatics across species, over time and space
Associate Advisor
Other advisors: Professor Mikael Boden
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Doctor Philosophy
Bioinformatics of epigenetics at multiple scales: from evolution of epigenetic factors to tracing their marks in organellar development
Associate Advisor
Other advisors: Professor Mikael Boden
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Doctor Philosophy
How epigenetic modifiers regulate brain size
Associate Advisor
Other advisors: Professor Michael Piper
Completed supervision
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2023
Doctor Philosophy
The role of the Polycomb protein Eed in the mouse cerebral cortex
Associate Advisor
Other advisors: Professor Michael Piper
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2023
Doctor Philosophy
Cell Type Definition from Single Cell RNA-seq
Associate Advisor
Other advisors: Professor Michael Piper, Professor Jessica Mar, Professor Mikael Boden
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2023
Doctor Philosophy
Machine learning models of epigenetic dynamics driving cell fate
Associate Advisor
Other advisors: Professor Jessica Mar, Professor Mikael Boden
Media
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