Publications
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A G protein-coupled receptor is essential for Schwann cells to initiate myelination.
Monk KR,
Naylor SG, Glenn TD, Mercurio S, Perlin JR, Dominguez C, Moens CB, Talbot WS.
Science.
2009;
325
(5946):
1402-5
-
Schwann Cells Inhibit Ectopic Clustering of Axonal Sodium Channels.
Voas MG,
Glenn TD, Raphael AR, Talbot WS.
J Neurosci.
2009;
29
(46):
14408-14414
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Genetic dissection of myelinated axons in zebrafish.
Monk KR,
Talbot WS.
Curr Opin Neurobiol.
2009
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Axonal domains: role for paranodal junction in node of Ranvier assembly.
Lyons DA,
Talbot WS.
Curr Biol.
2008;
18
(18):
R876-9
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KBP is essential for axonal structure, outgrowth and maintenance in zebrafish, providing insight into the cellular basis of Goldberg-Shprintzen syndrome.
Lyons DA,
Naylor SG, Mercurio S, Dominguez C, Talbot WS.
Development.
2008;
135
(3):
599-608
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Signals on the move: chemokine receptors and organogenesis in zebrafish.
Perlin JR,
Talbot WS.
Sci STKE.
2007;
2007
(400):
pe45
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Putting the glue in glia: Necls mediate Schwann cell axon adhesion.
Perlin JR,
Talbot WS.
J Cell Biol.
2007;
178
(5):
721-3
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alphaII-spectrin is essential for assembly of the nodes of Ranvier in myelinated axons.
Voas MG,
Lyons DA, Naylor SG, Arana N, Rasband MN, Talbot WS.
Curr Biol.
2007;
17
(6):
562-8
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Zebrafish bmp4 functions during late gastrulation to specify ventroposterior cell fates.
Stickney HL,
Imai Y, Draper B, Moens C, Talbot WS.
Dev Biol.
2007;
310
(1):
71-84
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nsf is essential for organization of myelinated axons in zebrafish.
Woods IG,
Lyons DA, Voas MG, Pogoda HM, Talbot WS.
Curr Biol.
2006;
16
(7):
636-48
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A genetic screen identifies genes essential for development of myelinated axons in zebrafish.
Pogoda HM,
Sternheim N, Lyons DA, Diamond B, Hawkins TA, Woods IG, Bhatt DH, Franzini-Armstrong C, Dominguez C, Arana N, Jacobs J, Nix R, Fetcho JR, Talbot WS.
Dev Biol.
2006;
298
(1):
118-31
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erbb3 and erbb2 are essential for schwann cell migration and myelination in zebrafish.
Lyons DA,
Pogoda HM, Voas MG, Woods IG, Diamond B, Nix R, Arana N, Jacobs J, Talbot WS.
Curr Biol.
2005;
15
(6):
513-24
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The you gene encodes an EGF-CUB protein essential for Hedgehog signaling in zebrafish.
Woods IG,
Talbot WS.
PLoS Biol.
2005;
3
(3):
e66
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The zebrafish gene map defines ancestral vertebrate chromosomes.
Woods IG,
Wilson C, Friedlander B, Chang P, Reyes DK, Nix R, Kelly PD, Chu F, Postlethwait JH, Talbot WS.
Genome Res.
2005;
15
(9):
1307-14
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Molecular genetics of axis formation in zebrafish.
Schier AF,
Talbot WS.
Annu Rev Genet.
2005:
39
561-613
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The role of the zebrafish nodal-related genes squint and cyclops in patterning of mesendoderm.
Dougan ST,
Warga RM, Kane DA, Schier AF, Talbot WS.
Development.
2003;
130
(9):
1837-51
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Fast1 is required for the development of dorsal axial structures in zebrafish.
Sirotkin HI,
Gates MA, Kelly PD, Schier AF, Talbot WS.
Curr Biol.
2000;
10
(17):
1051-4
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bozozok and squint act in parallel to specify dorsal mesoderm and anterior neuroectoderm in zebrafish.
Sirotkin HI,
Dougan ST, Schier AF, Talbot WS.
Development.
2000;
127
(12):
2583-92
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Analysis of chromosomal rearrangements induced by postmeiotic mutagenesis with ethylnitrosourea in zebrafish.
Imai Y,
Feldman B, Schier AF, Talbot WS.
Genetics.
2000;
155
(1):
261-72
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Genetic linkage mapping of zebrafish genes and ESTs.
Kelly PD,
Chu F, Woods IG, Ngo-Hazelett P, Cardozo T, Huang H, Kimm F, Liao L, Yan YL, Zhou Y, Johnson SL, Abagyan R, Schier AF, Postlethwait JH, Talbot WS.
Genome Res.
2000;
10
(4):
558-67
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Zebrafish organizer development and germ-layer formation require nodal-related signals.
Feldman B,
Gates MA, Egan ES, Dougan ST, Rennebeck G, Sirotkin HI, Schier AF, Talbot WS.
Nature.
1998;
395
(6698):
181-5
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