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Items: 1 to 20 of 101

1.

orthodenticle/otx ortholog expression in the anterior brain and eyes of Sepia officinalis (Mollusca, Cephalopoda).

Buresi A, Baratte S, Da Silva C, Bonnaud L.

Gene Expr Patterns. 2012 Mar-Apr;12(3-4):109-16. doi: 10.1016/j.gep.2012.02.001.

PMID:
22365924
2.

Somatic muscle development in Sepia officinalis (cephalopoda - mollusca): a new role for NK4.

Navet S, Bassaglia Y, Baratte S, Martin M, Bonnaud L.

Dev Dyn. 2008 Jul;237(7):1944-51. doi: 10.1002/dvdy.21614.

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Engrailed in cephalopods: a key gene related to the emergence of morphological novelties.

Baratte S, Andouche A, Bonnaud L.

Dev Genes Evol. 2007 May;217(5):353-62.

PMID:
17394016
5.
6.

Shh and Pax6 have unconventional expression patterns in embryonic morphogenesis in Sepia officinalis (Cephalopoda).

Navet S, Andouche A, Baratte S, Bonnaud L.

Gene Expr Patterns. 2009 Oct;9(7):461-7. doi: 10.1016/j.gep.2009.08.001.

PMID:
19683074
7.

ESTs library from embryonic stages reveals tubulin and reflectin diversity in Sepia officinalis (Mollusca — Cephalopoda).

Bassaglia Y, Bekel T, Da Silva C, Poulain J, Andouche A, Navet S, Bonnaud L.

Gene. 2012 May 1;498(2):203-11.

PMID:
22548232
8.

Brain development is a multi-level regulated process--the case of the OTX2 gene.

Gat-Yablonski G.

Pediatr Endocrinol Rev. 2011 Sep;9(1):422-30. Review.

PMID:
22783640
9.

Evolution of Otx paralogue usages in early patterning of the vertebrate head.

Suda Y, Kurokawa D, Takeuchi M, Kajikawa E, Kuratani S, Amemiya C, Aizawa S.

Dev Biol. 2009 Jan 1;325(1):282-95. doi: 10.1016/j.ydbio.2008.09.018.

10.

Evidence of early nervous differentiation and early catecholaminergic sensory system during Sepia officinalis embryogenesis.

Baratte S, Bonnaud L.

J Comp Neurol. 2009 Dec 1;517(4):539-49. doi: 10.1002/cne.22174.

PMID:
19795495
11.

The dynamic nitric oxide pattern in developing cuttlefish Sepia officinalis.

Mattiello T, Costantini M, Di Matteo B, Livigni S, Andouche A, Bonnaud L, Palumbo A.

Dev Dyn. 2012 Feb;241(2):390-402. doi: 10.1002/dvdy.23722.

12.

Emergence of sensory structures in the developing epidermis in sepia officinalis and other coleoid cephalopods.

Buresi A, Croll RP, Tiozzo S, Bonnaud L, Baratte S.

J Comp Neurol. 2014 Sep 1;522(13):3004-19. doi: 10.1002/cne.23562.

PMID:
24549606
14.

Conserved roles of ems/Emx and otd/Otx genes in olfactory and visual system development in Drosophila and mouse.

Sen S, Reichert H, VijayRaghavan K.

Open Biol. 2013 May 1;3(5):120177. doi: 10.1098/rsob.120177. Review.

15.

FaRP cell distribution in the developing CNS suggests the involvement of FaRPs in all parts of the chromatophore control pathway in Sepia officinalis (Cephalopoda).

Aroua S, Andouche A, Martin M, Baratte S, Bonnaud L.

Zoology (Jena). 2011 Apr;114(2):113-22. doi: 10.1016/j.zool.2010.11.002.

PMID:
21397478
16.

Cross-phylum regulatory potential of the ascidian Otx gene in brain development in Drosophila melanogaster.

Adachi Y, Nagao T, Saiga H, Furukubo-Tokunaga K.

Dev Genes Evol. 2001 Jun;211(6):269-80.

PMID:
11466522
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Novel and conserved roles for orthodenticle/ otx and orthopedia/ otp orthologs in the gastropod mollusc Patella vulgata.

Nederbragt AJ, te Welscher P, van den Driesche S, van Loon AE, Dictus WJ.

Dev Genes Evol. 2002 Aug;212(7):330-7.

PMID:
12185486
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20.

Identification and evolution of molecular domains involved in differentiating the cement gland-promoting activity of Otx proteins in Xenopus laevis.

Mancini P, Castelli M, Vignali R.

Mech Dev. 2013 Nov-Dec;130(11-12):628-39. doi: 10.1016/j.mod.2013.09.002.

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