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Fig. 5 Fibronectin is required for heart regeneration. (A and B) Wild-type embryos (A), or embryos from a cross between hemizygous hsp70:fnI1–9 and wild-type parents (B), were heat-shocked at 6 h post-fertilization (hpf) at 38 °C for 40 min and imaged at 24 hpf. Wild-type embryos appeared largely normal after this treatment (92.4% normal, 7.6% general dysmorphology, n=303). By contrast 61.4% of embryos from the transgenic cross developed a markedly shortened body axis (n=264). (C and D) In situ hybridization for fnI1–9 in wild-type (C) and hsp70:fnI1–9 clutchmate (D) ventricles at 1 day post heat-shock (dphs). (E–H) MHC (Myosin heavy chain; green) staining and collagen staining of hsp70:fnI1–9 (E and G) and wild type clutchmate (F and H) ventricles at 30 dpa. Three of 10 ventricles of heat-shocked clutchmates showed obvious areas of missing myocardium, compared to 9 of 10 ventricles in hsp70:fnI1–9 fish. Fisher Irwin exact test, *p<0.05. Black arrows indicate fibrosis. Dashed line indicates approximate resection plane. Scale bars: 50 μm.
Reprinted from Developmental Biology, 382(2), Wang, J., Karra, R., Dickson, A.L., and Poss, K.D., Fibronectin is deposited by injury-activated epicardial cells and is necessary for zebrafish heart regeneration, 427-435, Copyright (2013) with permission from Elsevier. Full text @ Dev. Biol.