Search for Ernsberger, U. Publications on

(since 2000)

Huber, K., and Ernsberger, U. (2006). Cholinergic differentiation occurs early in mouse sympathetic neurons and requires Phox2b. Gene Expr. 13, 133-139.

Sons, M.S., Busche, N., Strenzke, N., Moser, T., Ernsberger, U., Mooren, F.C., Zhang, W., Ahmad, M., Steffens, H., Schomburg, E.D., Plomp, J.J., and Missler, M. (2006). alpha neurexins are required for efficient neurotransmitter release and synaptic homeostasis at the mouse neuromuscular junction. Neuroscience 138, 433-446.

Ernsberger, U., Esposito, L., Partimo, S., Huber, K., Franke, A., Bixby, J.L., Kalcheim, C., and Unsicker, K. (2005). Expression of neuronal markers suggests heterogeneity of chick sympathoadrenal cells prior to invasion of the adrenal anlagen. Cell Tissue Res. 319, 1-13.

Gut, P., Huber, K., Lohr, J., Brühl, B., Oberle, S., Treier, M., Ernsberger, U., Kalcheim, C., and Unsicker, K. (2005). Lack of an adrenal cortex in SF1 mutant mice is compatible with the generation and differentiation of chromaffin cells. Development 132, 4611-4619.

Huber, K., Karch, N., Ernsberger, U., Goridios, C., and Unsicker, K. (2005). The role of Phox2b in chromaffin cell development. Dev. Biol. 279, 501-508.

Burau, K., Stenull, I., Huber, K., Misawa, H., Berse, B., Unsicker, K., and Ernsberger, U. (2004). c-ret regulates cholinergic properties in mouse sympathetic neurons: evidence from mutant mice. Eur. J. Neurosci. 20, 353-362.

Huber, K., Brühl, B., Guillemot, F., Olson, E.N., Ernsberger, U., and Unsicker, K. (2002). Development of chromaffin cells depends on MASH1 function. Development 129, 4729-4738.

Patzke, H., Reissmann, E., Stanke, M., Bixby, J. L., and Ernsberger, U. (2001). BMP growth factors and Phox2 transcription factors can induce synaptotagmin I and neurexin I during sympathetic neuron development. Mech. Dev. 108, 149-159

Combs, S. E., Ernsberger, U., Krieglstein, K., and Unsicker, K. (2001). Reduction of endogenous TGF-β does not affect phenotypic development of sympathoadrenal progenitors into adrenal chromaffin cells. Mech. Dev. 109, 295-302

Patzke H., and Ernsberger, U., (2000). Expression of neurexin Iα splice variants in sympathetic neurons: selective changes during differentiation and in response to neurotrophins. Mol. Cell. Neuroscience 15, 561-572

Ernsberger, U., Reissmann, E., Mason, I., and Rohrer, H., (2000). The expression of dopamine β-hydroxylase, tyrosine hydroxylase, and Phox 2 transcription factors in sympathetic neurons: evidence for common regulation during noradrenergic induction and diverging regulation later in development. Mech. Dev. 92, 169-177

Stanke, M., Geissen, M., Götz, R., Ernsberger, U., and Rohrer, H., (2000). The early expression of VAChT and VIP in mouse sympathetic ganglia is not induced by cytokines acting through LIFRβ or CNTFRα. Mech. Dev. 91, 91-96.


Ernsberger, U., and Rohrer, H. (2006). Phox2a and Phox2b: essential transcription factors for neuron specification and differentiation. In “Transcription factors in the nervous system”, Thiel, G., ed; pp 53-74; Wiley, Verlag Chemie, Weinheim, Germany.

Ernsberger, U. (2004). Gene expression from precursor to mature neuron. In „ Molecular Biology of the Neuron“, 2nd ed; Davies, W., and Morris, B., eds; pp 29-73; Oxford University Press, Oxford, UK.

Ernsberger, U. (2001). The development of postganglionic sympathetic neurons: coordinating neuronal differentiation and specification. Auton. Neurosci. 94, 1-13.

Ernsberger, U. (2000). Evidence for an evolutionary conserved role of bone morphogenetic protein growth factors and Phox2 transcription factors during noradrenergic differentiation of sympathetic neurons: Induction of a putative synexpression group of neurotransmitter-synthesizing enzymes. Eur. J. Biochem. 267, 6976-6981.

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