Differential regulation of the zebrafish orthopedia1 gene during fate determination of diencephalic neurons

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Abstract

Background

The homeodomain transcription factor Orthopedia (Otp) is essential in restricting the fate of multiple classes of secreting neurons in the neuroendocrine hypothalamus of vertebrates. However, there is little information on the intercellular factors that regulate Otp expression during development.

Results

Here, we identified two otp orthologues in zebrafish ( otp1 and otp2) and explored otp1 in the context of the morphogenetic pathways that specify neuroectodermal regions. During forebrain development, otp1 is expressed in anterior groups of diencephalic cells, positioned in the preoptic area (PO) (anterior alar plate) and the posterior tuberculum (PT) (posterior basal plate). The latter structure is characterized by Tyrosine Hydroxylase (TH)-positive cells, suggesting a role for otp1 in the lineage restriction of catecholaminergic (CA) neurons. Disruptions of Hedgehog (HH) and Fibroblast Growth Factor (FGF) pathways point to the ability of SHH protein to trigger otp1 expression in PO presumptive neuroblasts, with the attenuating effect of Dzip1 and FGF8. In addition, our data disclose otp1 as a determinant of CA neurons in the PT, where otp1 activity is strictly dependent on Nodal signaling and it is not responsive to SHH and FGF.

Conclusion

In this study, we pinpoint the evolutionary importance of otp1 transcription factor in cell states of the diencephalon anlage and early neuronal progenitors. Furthermore, our data indicate that morphogenetic mechanisms differentially regulate otp1 expression in alar and basal plates.

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Most cited references 90

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Using an appropriate model of amino acid replacement is very important for the study of protein evolution and phylogenetic inference. We have built a tool for the selection of the best-fit model of evolution, among a set of candidate models, for a given protein sequence alignment. ProtTest is available under the GNU license from http://darwin.uvigo.es

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Positional effect of single bulge nucleotide on PNA(peptide nucleic acid)/DNA hybrid stability

Takafumi N. Sugimoto, K. Yamamoto, N Satoh (1999)

We report positional effect of bulge nucleotide on PNA/DNA hybrid stability. CD spectra showed that PNA/DNA hybrids required at least seven base pairings at a stem region to form a bulged structure. On the other hand, DNA/DNA could form bulged structure when there are only four base pairings adjacent to the bulge nucleotide. We discuss why PNA requests such a many base pairings to form bulged structure from a nearest neighbor standpoint.

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Author and article information

Journal

Journal ID (nlm-ta): BMC Dev Biol

Title: BMC Developmental Biology

Publisher: BioMed Central (London )

ISSN (Electronic): 1471-213X

Publication date Collection: 2006

Publication date (Electronic): 30 October 2006

Volume: 6

Page: 50

Affiliations

[1 ]Department of Biology, Università degli Studi di Milano, Via Celoria 26, Milano, 20133, Italy

[2 ]Laboratory of Biochemistry and Molecular Biology, Stazione Zoologica "A. Dohrn", Villa Comunale, Napoli, 80121, Italy

[3 ]GSF National Research Center for Environment and Health, Institute of Developmental Genetics, Ingolstaedter Landstrasse 1, 85764 Neuherberg, Germany

Article

Publisher ID: 1471-213X-6-50

DOI: 10.1186/1471-213X-6-50

PMC ID: 1635040

PubMed ID: 17074092

SO-VID: 2dd6de9a-3357-44ec-a1e9-32f5775ef648

License:

This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Differential regulation of the zebrafish orthopedia1 gene during fate determination of diencephalic neurons

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Abstract

Background

Results

Conclusion

Related collections

Stress signalling in stem cells

Most cited references 90

MRBAYES: Bayesian inference of phylogenetic trees.

ProtTest: selection of best-fit models of protein evolution.

Positional effect of single bulge nucleotide on PNA(peptide nucleic acid)/DNA hybrid stability

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