Zhong G , Ahimaz P , Edwards NA , Hagen JJ , Faure C , Lu Q , Kingma P , Middlesworth W , Khlevner J , El Fiky M , Schindel D , Fialkowski E , Kashyap A , Forlenza S , Kenny AP , Zorn AM , Shen Y , Chung WK .

P30 DK078392 NIDDK NIH HHS , P01 HD093363 NICHD NIH HHS , R01 GM120609 NIGMS NIH HHS , R03 HL147197 NHLBI NIH HHS

                esophageal atresia

	Figure 1. Pathway enrichment analysis (A) Volcano plot. Each dot represents a pathway. X axis represents the enrichment rate in log scale, and Y axis is the Poisson test p value in log10 scale. The horizontal dashed line marks family-wise error rate (FWER) of 0.05. Significant pathways (FWER < 0.05) are colored by the percentage of LGD variants, and other pathways are colored gray. (B) Pathway overlaps. Each circle represents a pathway with FWER < 0.05. Circle size is proportional to the number of observed de novo variants in the pathway; circle color represents the FWER; edge width is determined by the Jaccard index between two pathways, and edge color represents the correlation coefficient of the two pathways under the null in simulations.
	Figure 2. StringDB of LGD and missense genes in complex cases Dots are colored to indicate whether it is involved in one of the significant pathways. Constrained genes (pLI ≥ 0.5) with LGD mutations are colored black. Edge width represents the StringDB score. Genes not involved in any of the annotation groups were not shown.
	Figure 3. CRISPR-mutation of candidate risk genes in Xenopus disrupts trachea-esophagus morphogenesis (A–G) Representative confocal microscopy images of NF44 foregut from Xenopus CRISPR mutants. Sox2 F0 CRISPR mutants (C) have the same trachea-esophageal phenotype as sox2−/− F2 germline mutants (B), validating the F0 screen. Compared to control tyr mutations in which the trachea (t) and esophagus (e) have completely separated (A), mutation of 13/18 genes caused a failure of the foregut to separate into distinct trachea and esophagus (D–E and H–L) and/or resulted in a disrupted esophagus with multiple lumens (F and G). Dashed lines indicate the esophagus, trachea, and foregut lumens. Arrows point to a tracheoesophageal cleft. The number of embryos with a TED phenotype/total injected. Scale bars represent 50 μm.
	Supplemental Figure 1. Deconvolution of CRISPR-mediated indels in Xenopus embryos. CRISPR-Cas9-injected Xenopus embryos were genotyped by PCR amplification of the target region followed by Sanger sequencing. Sanger sequencing traces were analyzed using ICE software (Synthego, USA) to deconvolute the proportion and sequence of each indel mutation in each embryo. Representative sample traces are shown for gene editing of itsn1, disp1, and arhgap17 (traces generated by ICE). The gRNA sequence is indicated by black lines and the PAM sequence by dotted red lines. Dashed vertical black lines indicate the predicted location of the Cas9 cut site. Bar graphs indicate the percent of sequences with the indicated insertion or deletion size (in base pairs) ± standard error of the mean (n=5-10 embryos analyzed per graph). F0 CRISPR editing of embryos results in mosaic indels however each gRNA tends to generate similar mutation profiles in embryos within a given experiment (e.g. itsn1 gRNA tends to produce -2 and +1 bp indels).

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