Kelsey Tyssowski

Kelsey Tyssowski

Postdoctoral Fellow Harvard University she/her

Publications

Firing rate homeostasis can occur in the absence of neuronal activity-regulated transcription.

Tyssowski, K.M., Letai, K.C., Rendall, S.D., Tan, C., Nizhnik, A., Kaeser, P.S., Gray, J.M., 2019. Firing rate homeostasis can occur in the absence of neuronal activity-regulated transcription. J. Neurosci. 39, 9885–9899.

The neuronal stimulation–transcription coupling map

Tyssowski, K.M., Gray, J.M., 2019. The neuronal stimulation–transcription coupling map. Current Opinion in Neurobiology 59, 87–94.

Blue light increases neuronal activity-regulated gene expression in the absence of optogenetic proteins

Tyssowski, K.M., Gray, J.M., 2019. Blue Light Increases Neuronal Activity-Regulated Gene Expression in the Absence of Optogenetic Proteins. eNeuro 6, ENEURO.0085-19.2019.

Different neuronal activity patterns induce different gene expression programs

Tyssowski, K.M., DeStefino, N.R., Cho, J.-H., Dunn, C.J., Poston, R.G., Carty, C.E., Jones, R.D., Chang, S.M., Romeo, P., Wurzelmann, M.K., Ward, J.M., Andermann, M.L., Saha, R.N., Dudek, S.M., Gray, J.M., 2018. Different neuronal activity patterns induce different gene expression programs. Neuron 98, 530-546.e11.

The polycomb component Ring1B regulates the timed termination of subcerebral projection neuron production during mouse neocortical development

Morimoto-Suzki, N., Hirabayashi, Y., Tyssowski, K., Shinga, J., Vidal, M., Koseki, H., Gotoh, Y., 2014. The polycomb component Ring1B regulates the timed termination of subcerebral projection neuron production during mouse neocortical development. Development 141, 4343–4353.

Chromatin regulators of neural development

Tyssowski, K., Kishi, Y., Gotoh, Y., 2014. Chromatin regulators of neural development. Neuroscience 264, 4–16.

Transcriptional coupling of neuronal fate commitment and the onset of migration

Itoh, Y., Tyssowski, K., Gotoh, Y., 2013. Transcriptional coupling of neuronal fate commitment and the onset of migration. Current Opinion in Neurobiology, Development of neurons and glia 23, 957–964.