Fig. 5

miR-29 family knock-down induces morphological and physiological changes in the heart of Zebrafish. (A) Representative images of Wild Type Zebrafish (left panel) and miR-29-sponge Zebrafish: view from outside (middle panel (+skin)) and with open chest (right panel (?skin)). Note the convexity in the cardiac region of miR-29 Sponge animal compared to Wild Type (black arrow) indicated by the white arrow. Calibration bar?=?1?mm (B) Representative echocardiography of Wild Type (left panels) and miR-29-sponge (right panels) Zebrafish hearts showing end-diastolic area (EDA; first and third panel) and end-systolic area (ESA; second and fourth panel) Calibration bar?=?1?mm. (C) Graph shows systolic area (black striped bars) and diastolic area (light gray bars) in Zebrafish hearts of Wild Type (n?=?9) and miR-29-sponge Zebrafish (n?=?13). (D) Graph shows Fractional Area Change (FAC) in Wild Type (black bar; n?=?9) and miR-29-sponge (gray bar; n?=?13) Zebrafish hearts. (E) Representative hematoxylin eosin staining in Wild Type (left panel) and miR-29-sponge (right panel) Zebrafish ventricles. Calibration bar?=?100?µm. (D) *p?<?0.05 Vs Wild Type.