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Items: 40

1.

Transcriptome Analysis of Chemically-Induced Sensory Neuron Ablation in Zebrafish.

Cox JA, Zhang B, Pope HM, Voigt MM.

PLoS One. 2016 Feb 10;11(2):e0148726. doi: 10.1371/journal.pone.0148726. eCollection 2016.

2.

Peripheral glia have a pivotal role in the initial response to axon degeneration of peripheral sensory neurons in zebrafish.

Pope HM, Voigt MM.

PLoS One. 2014 Jul 24;9(7):e103283. doi: 10.1371/journal.pone.0103283. eCollection 2014.

3.

Novel role for carbamoyl phosphate synthetase 2 in cranial sensory circuit formation.

Cox JA, LaMora A, Johnson SL, Voigt MM.

Int J Dev Neurosci. 2014 Apr;33:41-8. doi: 10.1016/j.ijdevneu.2013.11.003. Epub 2013 Nov 23.

4.

Diverse mechanisms for assembly of branchiomeric nerves.

Cox JA, Lamora A, Johnson SL, Voigt MM.

Dev Biol. 2011 Sep 15;357(2):305-17. doi: 10.1016/j.ydbio.2011.06.044. Epub 2011 Jul 13.

5.

A zebrafish SKIV2L2-enhancer trap line provides a useful tool for the study of peripheral sensory circuit development.

Cox JA, McAdow AR, Dinitz AE, McCallion AS, Johnson SL, Voigt MM.

Gene Expr Patterns. 2011 Oct;11(7):409-14. doi: 10.1016/j.gep.2011.06.002. Epub 2011 Jul 1.

6.

Ectodermal P2X receptor function plays a pivotal role in craniofacial development of the zebrafish.

Kucenas S, Cox JA, Soto F, Lamora A, Voigt MM.

Purinergic Signal. 2009 Sep;5(3):395-407. doi: 10.1007/s11302-009-9165-z. Epub 2009 Jun 16.

7.

Cranial sensory ganglia neurons require intrinsic N-cadherin function for guidance of afferent fibers to their final targets.

LaMora A, Voigt MM.

Neuroscience. 2009 Mar 31;159(3):1175-84. doi: 10.1016/j.neuroscience.2009.01.049. Epub 2009 Feb 3.

8.

Selective labeling of central and peripheral sensory neurons in the developing zebrafish using P2X(3) receptor subunit transgenes.

Kucenas S, Soto F, Cox JA, Voigt MM.

Neuroscience. 2006;138(2):641-52. Epub 2006 Jan 18.

PMID:
16413125
10.

Use-dependent inhibition of P2X3 receptors by nanomolar agonist.

Pratt EB, Brink TS, Bergson P, Voigt MM, Cook SP.

J Neurosci. 2005 Aug 10;25(32):7359-65.

11.
12.

Molecular structure of P2X receptors.

Egan TM, Cox JA, Voigt MM.

Curr Top Med Chem. 2004;4(8):821-9. Review.

PMID:
15078213
13.

Molecular characterization of the zebrafish P2X receptor subunit gene family.

Kucenas S, Li Z, Cox JA, Egan TM, Voigt MM.

Neuroscience. 2003;121(4):935-45.

PMID:
14580944
14.

Cloning and characterization of two novel zebrafish P2X receptor subunits.

Diaz-Hernandez M, Cox JA, Migita K, Haines W, Egan TM, Voigt MM.

Biochem Biophys Res Commun. 2002 Jul 26;295(4):849-53.

PMID:
12127972
15.

On the contribution of the first transmembrane domain to whole-cell current through an ATP-gated ionotropic P2X receptor.

Haines WR, Voigt MM, Migita K, Torres GE, Egan TM.

J Neurosci. 2001 Aug 15;21(16):5885-92.

16.

The first transmembrane domain of the P2X receptor subunit participates in the agonist-induced gating of the channel.

Haines WR, Migita K, Cox JA, Egan TM, Voigt MM.

J Biol Chem. 2001 Aug 31;276(35):32793-8. Epub 2001 Jul 3.

17.
18.

Polar residues of the second transmembrane domain influence cation permeability of the ATP-gated P2X(2) receptor.

Migita K, Haines WR, Voigt MM, Egan TM.

J Biol Chem. 2001 Aug 17;276(33):30934-41. Epub 2001 Jun 11.

19.
20.

Properties of the novel ATP-gated ionotropic receptor composed of the P2X(1) and P2X(5) isoforms.

Haines WR, Torres GE, Voigt MM, Egan TM.

Mol Pharmacol. 1999 Oct;56(4):720-7.

21.

Identification of a domain involved in ATP-gated ionotropic receptor subunit assembly.

Torres GE, Egan TM, Voigt MM.

J Biol Chem. 1999 Aug 6;274(32):22359-65.

22.
23.

Co-expression of P2X1 and P2X5 receptor subunits reveals a novel ATP-gated ion channel.

Torres GE, Haines WR, Egan TM, Voigt MM.

Mol Pharmacol. 1998 Dec;54(6):989-93.

24.

N-Linked glycosylation is essential for the functional expression of the recombinant P2X2 receptor.

Torres GE, Egan TM, Voigt MM.

Biochemistry. 1998 Oct 20;37(42):14845-51.

PMID:
9778359
25.

Topological analysis of the ATP-gated ionotropic [correction of ionotrophic] P2X2 receptor subunit.

Torres GE, Egan TM, Voigt MM.

FEBS Lett. 1998 Mar 20;425(1):19-23. Erratum in: FEBS Lett 1998 May 1;427(1):152.

27.

Assignment of the gene encoding the serotonin 5HT1B receptor to rat chromosome 8q31 by fluorescence in situ hybridization.

Courvoisier H, Tissir F, Vanvooren P, Voigt MM, Szpirer J, Szpirer C, Morm├Ęde P, Moisan MP.

Mamm Genome. 1997 Oct;8(10):792-3. No abstract available.

PMID:
9321485
28.

Expression of multiple alpha adrenergic receptor subtype messenger RNAs in the adult rat brain.

McCune SK, Voigt MM, Hill JM.

Neuroscience. 1993 Nov;57(1):143-51.

PMID:
8278048
29.

Cloning and characterization of the rat 5-HT5B receptor. Evidence that the 5-HT5B receptor couples to a G protein in mammalian cell membranes.

Wisden W, Parker EM, Mahle CD, Grisel DA, Nowak HP, Yocca FD, Felder CC, Seeburg PH, Voigt MM.

FEBS Lett. 1993 Oct 25;333(1-2):25-31.

30.

Structure functional expression and spatial distribution of a cloned cDNA encoding a rat 5-HT1D-like receptor.

Bach AW, Unger L, Sprengel R, Mengod G, Palacios J, Seeburg PH, Voigt MM.

J Recept Res. 1993;13(1-4):479-502.

PMID:
8450501
31.
32.

The rat alpha 2-C4 adrenergic receptor gene encodes a novel pharmacological subtype.

Voigt MM, McCune SK, Kanterman RY, Felder CC.

FEBS Lett. 1991 Jan 14;278(1):45-50.

34.

Sequence of a rat brain cDNA encoding an alpha-1B adrenergic receptor.

Voigt MM, Kispert J, Chin HM.

Nucleic Acids Res. 1990 Feb 25;18(4):1053. No abstract available.

35.

Preprocholecystokinin mRNA in rat brain: regional expression includes thalamus.

Voigt MM, Uhl GR.

Brain Res. 1988 Nov;464(3):247-53.

PMID:
3208111
37.

Interactions of cholecystokinin and dopamine in the nucleus accumbens.

Wang RY, White FJ, Voigt MM.

Ann N Y Acad Sci. 1985;448:352-60. No abstract available.

PMID:
2862829
38.

Benzodiazepine binding to cultured human pituitary cells.

Voigt MM, Davis LG, Wyche JH.

J Neurochem. 1984 Oct;43(4):1106-13.

PMID:
6088693
39.
40.

Old world prehistory.

Voigt MM.

Science. 1976 May 14;192(4240):682-3. No abstract available.

PMID:
17820019

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