The insect central complex as model for heterochronic brain development : background, concepts, and tools

Koniszewski, Nikolaus Dieter Bernhard; Kollmann, Martin; Bigham, Mahdiyeh; Farnworth, Max; He, Bicheng; Büscher, Marita; Huetteroth, Wolf; Binzer, Marlene; Schachtner, Joachim; Bucher, Gregor

Publikation:
The insect central complex as model for heterochronic brain development : background, concepts, and tools

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Koniszewski_0-347749.pdfGröße: 2.12 MBDownloads: 501

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2016

Autor:innen

Koniszewski, Nikolaus Dieter Bernhard

Kollmann, Martin

Bigham, Mahdiyeh

Farnworth, Max

He, Bicheng

Büscher, Marita

Huetteroth, Wolf

Binzer, Marlene

Schachtner, Joachim

Bucher, Gregor

Open Access-Veröffentlichung

Open Access Hybrid

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Zukunftskolleg: Publikationen
Biologie: Publikationen

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Erschienen in

Development genes and evolution. 2016, 226(3), pp. 209-219. ISSN 0949-944X. eISSN 1432-041X. Available under: doi: 10.1007/s00427-016-0542-7

Zusammenfassung

The adult insect brain is composed of neuropils present in most taxa. However, the relative size, shape, and developmental timing differ between species. This diversity of adult insect brain morphology has been extensively described while the genetic mechanisms of brain development are studied predominantly in Drosophila melanogaster. However, it has remained enigmatic what cellular and genetic mechanisms underlie the evolution of neuropil diversity or heterochronic development. In this perspective paper, we propose a novel approach to study these questions. We suggest using genome editing to mark homologous neural cells in the fly D. melanogaster, the beetle Tribolium castaneum, and the Mediterranean field cricket Gryllus bimaculatus to investigate developmental differences leading to brain diversification. One interesting aspect is the heterochrony observed in central complex development. Ancestrally, the central complex is formed during embryogenesis (as in Gryllus) but in Drosophila, it arises during late larval and metamorphic stages. In Tribolium, it forms partially during embryogenesis. Finally, we present tools for brain research in Tribolium including 3D reconstruction and immunohistochemistry data of first instar brains and the generation of transgenic brain imaging lines. Further, we characterize reporter lines labeling the mushroom bodies and reflecting the expression of the neuroblast marker gene Tc-asense, respectively.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

Schlagwörter

Central complex, Brain, Heterochrony, Evolution, Tribolium, Drosophila

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ISO 690

KONISZEWSKI, Nikolaus Dieter Bernhard, Martin KOLLMANN, Mahdiyeh BIGHAM, Max FARNWORTH, Bicheng HE, Marita BÜSCHER, Wolf HUETTEROTH, Marlene BINZER, Joachim SCHACHTNER, Gregor BUCHER, 2016. The insect central complex as model for heterochronic brain development : background, concepts, and tools. In: Development genes and evolution. 2016, 226(3), pp. 209-219. ISSN 0949-944X. eISSN 1432-041X. Available under: doi: 10.1007/s00427-016-0542-7

BibTex

@article{Koniszewski2016-06insec-34792,
  year={2016},
  doi={10.1007/s00427-016-0542-7},
  title={The insect central complex as model for heterochronic brain development : background, concepts, and tools},
  number={3},
  volume={226},
  issn={0949-944X},
  journal={Development genes and evolution},
  pages={209--219},
  author={Koniszewski, Nikolaus Dieter Bernhard and Kollmann, Martin and Bigham, Mahdiyeh and Farnworth, Max and He, Bicheng and Büscher, Marita and Huetteroth, Wolf and Binzer, Marlene and Schachtner, Joachim and Bucher, Gregor}
}

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Publikation: The insect central complex as model for heterochronic brain development : background, concepts, and tools

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Publikation:
The insect central complex as model for heterochronic brain development : background, concepts, and tools