FIGURE

Fig. 4

ID
ZDB-FIG-180221-23
Publication
Piatek et al., 2017 - Ectopically expressed Slc34a2a sense-antisense transcripts cause a cerebellar phenotype in zebrafish embryos depending on RNA complementarity and Dicer
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Fig. 4

Injection of non- protein coding Slc34a2a RNA and Slc34a2a fragments interfere with zebrafish development.

A) Schematic representation of a zebrafish head at 48 hpf; forebrain, blue; eyes, yellow; otic vesicles, green and cerebellum, red. Middle and left, wild type and Slc34a2a-FS injected embryo, respectively. Red arrows indicate the position of the cerebellum. B) Phenotypic quantification of Slc34a2a and Slc34a2a-FS injected embryos (364 Slc34a2a-FS injected embryos were assessed). C) Schematic representation of the fragments generated, even numbers represent sense orientation; uneven numbers, antisense orientation. The large black boxes represent exons comprised in the relevant fragments, the open boxes are exons that are not represented in the injected fragments. The small boxes in red indicate potential sites of hybridization of the injected fragments with an endogenous transcript on the opposite strand. D) Top view of 48 hpf embryos with the fragments (Frag) injected as indicated. E) Phenotypic assessment of injected embryos (90 or more per RNA). F) Eng2 stained embryos injected with the indicated fragments and the relevant controls. All the embryos were tested in parallel with the same solutions and under identical conditions to allow for a comparison of the relative intensities.

Expression Data

Expression Detail
Antibody Labeling
Phenotype Data

Phenotype Detail
Acknowledgments
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