Sébastien Baratte scite author profile

Sébastien Baratte

2Publications

74Citation Statements Received

53Citation Statements Given

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107

Affiliations

Biologie des Organismes et Écosystèmes Aquatiques, Sorbonne University, French National Centre for Scientific Research

Publications

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

Baratte

Bonnaud

2009

J of Comparative Neurology

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Within Mollusca, cephalopods exhibit a particularly complex nervous system. The adult brain is formed from the fusion of several "typical" molluscan ganglia but it remains poorly understood how these ganglia emerge, migrate, and differentiate during embryogenesis. We studied the development of both central and peripheral nervous system by antibodies raised against alpha-tubulin and tyrosine hydroxylase (TH) in Sepia officinalis embryos to visualize neurites and catecholamine-containing neurons, respectively. In early embryos, when organs start delineating, some ganglia already exhibited a significant fiber network. TH-like immunoreactivity was detected in these fibers and in some primary sensory neurons in the embryo periphery. These data attest to the occurrence of an early embryonic sensory nervous system, likely effective, transient in part, and in relation to the perception of external cues. Concerning the peripheral nervous network, the stellate ganglia emerged as a plexus of numerous converging axons from TH-like immunoreactive sensory cells, first at the mantle edge, and then in the whole mantle surface. Later, TH-immunopositive motor fibers, originating from the stellate ganglia, penetrated the circular muscles of the mantle. These patterns reveal the setup of a mantle midline with likely attractive and repulsive properties. Our findings seem to challenge the widespread, still accepted, view of a late differentiation of cephalopod ganglia, and provides significant data for further investigations about axonal guidance during cephalopod development.

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Nervous system development in cephalopods: How egg yolk-richness modifies the topology of the mediolateral patterning system

Buresi

Andouche

Navet

et al. 2016

Developmental Biology

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Cephalopods possess the most complex centralized nervous system among molluscs and the molecular determinants of its development have only begun to be explored. To better understand how evolved their brain and body axes, we studied Sepia officinalis embryos and investigated the expression patterns of neural regionalization genes involved in the mediolateral patterning of the neuroectoderm in model species. SoxB1 expression reveals that the embryonic neuroectoderm is made of several distinct territories that constitute a large part of the animal pole disc. Concentric nkx2.1, pax6/gsx, and pax3/7/msx/pax2/5/8 positive domains subdivide this neuroectoderm. Looking from dorsal to ventral sides, the sequence of these expressions is reminiscent of the mediolateral subdivision in model species, which provides good evidence for "mediolateral patterning" conservation in cephalopods. A specific feature of cephalopod development, however, includes an unconventional orientation to this mediolateral sequence: median markers (like nkx2.1) are unexpectedly expressed at the periphery of the cuttlefish embryo and lateral markers (like Pax3/7) are expressed centrally. As the egg is rich with yolk, the lips of the blastopore (that classically organizes the neural midline) remain unclosed at the lateral side of the animal pole until late stages of organogenesis, therefore reversing the whole embryo topology. These findings confirm - by means of molecular tools - the location of both ventral and dorsal poles in cephalopod embryos.

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