Your search keyword '"Kaas G."' showing total 2 results

1. Tet1 Isoforms Differentially Regulate Gene Expression, Synaptic Transmission, and Memory in the Mammalian Brain.

Author

Greer, C. B., Wright, J., Weiss, J. D., Lazarenko, R. M., Moran, S. P., Zhu, J., Chronister, K. S., Jin, A. Y., Kennedy, A. J., Sweatt, J. D., and Kaas, G. A.

Subjects

NEURAL transmission, GENE expression, DNA demethylation, NERVOUS system, GENES

Abstract

The dynamic regulation of DNA methylation in postmitotic neurons is necessary for memory formation and other adaptive behaviors. Ten-eleven translocation 1 (TET1) plays a part in these processes by oxidizing 5-methylcytosine (5mC) to 5-hydroxymethylcytosine (5hmC), thereby initiating active DNA demethylation. However, attempts to pinpoint its exact role in the nervous system have been hindered by contradictory findings, perhaps due in part, to a recent discovery that two isoforms of the Tet1 gene are differentially expressed from early development into adulthood. Here, we demonstrate that both the shorter transcript (Tet1S) encoding an N-terminally truncated TET1 protein and a full-length Tet1 (Tet1FL) transcript encoding canonical TET1 are co-expressed in the adult mouse brain. We show that Tet1S is the predominantly expressed isoform and is highly enriched in neurons, whereas Tet1FL is generally expressed at lower levels and more abundant in glia, suggesting their roles are at least partially cell type-specific. Using viral-mediated, isoform and neuron-specific molecular tools, we find that the individual repression of each transcript leads to the dysregulation of unique gene ensembles and contrasting changes in basal synaptic transmission. In addition, Tet1S repression enhances, while Tet1FL impairs, hippocampal-dependent memory in male mice. Together, our findings demonstrate that each Tet1 isoform serves a distinct role in the mammalian brain. [ABSTRACT FROM AUTHOR]

Published

2021

2. Commissioning of inline ECE system within waveguide based ECRH transmission systems on ASDEX upgrade.

Author

Bongers, W. A., Kasparek, W., Doelman, N., Van den Braber, R., Van den Brand, H., Meo, F., de Baar, M. R., Amerongen, F. J., Donné, A. J. H., Elzendoorn, B. S. Q., Erckmann, V., Goede, A. P. H., Giannone, L., Grünwald, G., Hollman, F., Kaas, G., Krijger, B., Michel, G., Lubyako, L., and Monaco, F.

Subjects

ELECTRON cyclotron resonance sources, CYCLOTRONS, WAVEGUIDES, POLARIZATION (Nuclear physics), POWER electronics

Abstract

A CW capable inline electron cyclotron emission (ECE) separation system for feedback control, featuring oversized corrugated waveguides, is commissioned on ASDEX upgrade (AUG). The system is based on a combination of a polarization independent, non-resonant, Mach-Zehnder diplexer equipped with dielectric plate beam splitters [2, 3] employed as corrugated oversized waveguide filter, and a resonant Fast Directional Switch, FADIS [4, 5, 6, 7] as ECE/ECCD separation system. This paper presents an overview of the system, the low power characterisation tests and first high power commissioning on AUG. [ABSTRACT FROM AUTHOR]

Published

2012