Espinoza-Lewis RA , Yu L , He F , Liu H , Tang R , Shi J , Sun X , Martin JF , Wang D , Yang J , Chen Y .

R01 DE 16329-01 NIDCR NIH HHS, R01 DE14044 NIDCR NIH HHS, R01 HL085635-02 NHLBI NIH HHS , R01 HL085635 NHLBI NIH HHS , R01 DE014044 NIDCR NIH HHS, R01 DE016329 NIDCR NIH HHS

	Fig. 1. Shox2 expression in the murine developing heart. (A) Shox2 expression is initially detected in the sinus venosus region (arrowhead) at E8.5 embryo. At E10.5 (B) and E11.5 (C), Shox2 expression gradually becomes restricted to the right side of the heart to the dorsal wall of the right atrium, the SAN region (arrow, C) and sinus valves (arrowheads, B, C). At E12.5 (D), restricted Shox2 expression in the SAN and sinus valves (arrowheads) is clearly observed. (E) Shox2 expression at E16.5 follows the same pattern as previous stages. (F) Whole mount in situ hybridization showing the expression of Shox2a isoform in the sinus venosus region (yellow arrowhead). A, atrium; V, ventricle; D, dorsal side.
	Fig. 3. Altered gene expression in the Shox2−/− heart. Expression patterns of Hcn4 (A–D), Tbx3 (EH), Nkx2-5 (I–L), Nppa (M–P), Cx40 (Q–T) and cTnt (U–X) at E10.5 and at E11.5 in the wild type and Shox2−/− hearts are shown. Hcn4 is expressed in the dorsal right wall of the right atrium in the wild type (A, C) and is reduced or absent in the Shox2 mutant (B, D). Tbx3 is expressed in the dorsal right wall of the right atrium and in the sinus valves (E, G), however is absent in the Shox2 mutant (F, H) at both stages. Nppa, Cx40, and Nkx2-5 are ectopically expressed in the dorsal right wall of the Shox2–/– right atrium at both stages (J, N, R, L, P, T), as compared to the wild type controls (I, M, Q, K, O, S). cTnt shows comparable expression level in the Shox2–/– heart (V, X) and the wild type controls (U, W). In all panels, the arrows point to the SAN region, while the arrowheads point to the sinus valves. A, atrium. Scale bars represent 50 μm.
	Fig. 4. Shox2 overexpression downregulates Nkx2-5 expression. XNkx2-5 and XcTnI expression was analyzed by in situ hybridization in control embryos at stage 26 (A, E) and at stage 41 (C, G) and in GR-Shox2 mRNA injected induced embryos at same stages (B, F, D, H). XNkx2-5 expression is clearly reduced at the midline of injected induced embryos at stage 26 (B), as compared to control embryos (A). XcTnI expression is maintained in injected induced embryos laterally, but is absent at the midline at stage 26 (F), as compared to the controls (E). At stage 41, XNkx2-5 expression is absent in injected induced embryos (D) compared to control embryos (C). XcTnI expression in injected induced embryos (D) is comparable to that of control embryos (H). Altered gene expression is accompanied by the abnormal heart morphology when comparing control and injected induced embryos (C, D, G, H). Histological transverse sections of Xenopus embryos showing loss of mesodermal cardiac progenitor cells in the ventral midline in injected induced embryos (B’, D’, arrowheads), as evidenced by the loss of XNkx2-5 expression in the corresponding region when compared to control embryos (A’, C’, arrowheads). Scale bars represent 50 μm.

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