The Emerging Vertebrate Model Species for Neurophysiological Studies is Danionella Cerebrum, New Species (Teleostei: Cyprinidae)

Overview

Journal Sci Rep

Specialty Science

Date 2021 Sep 24

PMID 34556691

Citations 12

Authors

Ralf Britz

Kevin W Conway

Lukas Ruber

Affiliations

Soon will be listed here.

Abstract

The four described species of Danionella are tiny, transparent fishes that mature at sizes between 10-15 mm, and represent some of the most extreme cases of vertebrate progenesis known to date. The miniature adult size and larval appearance of Danionella, combined with a diverse behavioral repertoire linked to sound production by males, have established Danionella as an important model for neurophysiological studies. The external similarity between the different species of Danionella has offered an important challenge to taxonomic identification using traditional external characters, leading to confusion over the identity of the model species. Using combined morphological and molecular taxonomic approaches, we show here that the most extensively studied species of Danionella is not D. translucida, but represents an undescribed species, D. cerebrum n. sp. that is externally almost identical to D. translucida, but differs trenchantly in several internal characters. Molecular analyses confirm the distinctiveness of D. cerebrum and D. translucida and suggest that the two species are not even sister taxa. Analysis of the evolution of sexual dimorphisms associated with the Weberian apparatus reveals significant increases in complexity from the simpler condition found in D. dracula, to most complex conditions in D. cerebrum, D. mirifica and D. translucida.

Citing Articles

The genome sequence of the Dracula fish, (Britz, Conway & Rüber, 2009).

Ruber L, Britz R, Conway K, Bista I, McCarthy S, Wood J Wellcome Open Res. 2024; 9:194.

PMID: 39224769 PMC: 11367074. DOI: 10.12688/wellcomeopenres.21117.1.

Development of neural circuits for social motion perception in schooling fish.

Zada D, Schulze L, Yu J, Tarabishi P, Napoli J, Milan J Curr Biol. 2024; 34(15):3380-3391.e5.

PMID: 39025069 PMC: 11419698. DOI: 10.1016/j.cub.2024.06.049.

In Vivo Monitoring of Expression in Transgenic Zebrafish.

Pose-Mendez S, Rehbock M, Wolf-Asseburg A, Koster R Cells. 2024; 13(13.

PMID: 38994990 PMC: 11240397. DOI: 10.3390/cells13131138.

The mechanism for directional hearing in fish.

Veith J, Chaigne T, Svanidze A, Dressler L, Hoffmann M, Gerhardt B Nature. 2024; 631(8019):118-124.

PMID: 38898274 PMC: 11222163. DOI: 10.1038/s41586-024-07507-9.

Pressure and particle motion enable fish to sense the direction of sound.

Carr C Nature. 2024; 631(8019):29-30.

PMID: 38898257 DOI: 10.1038/d41586-024-01509-3.

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