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[2] Liu, Y., Wu, F., Liu, D., Wei, R., Abbas, N., Xia, J., Li, D., Wang, H., Zhuang, Y., Guo, D., Chen, Y., Wu, Y., Ke, X., Tao, J., Yang, F., Lai, K., Shu, X., and Li, Y. X. (2018) Generation of WAe001-A-15, a human embryonic stem cell line with miR-122 doxycycline-inducible expression, Stem Cell Res 29, 84-87.

[3] Jiang, J., Tang, S., Xia, J., Wen, J., Chen, S., Shu, X., Huen, M. S. Y., and Deng, Y. (2018) C9orf140, a novel Axin1-interacting protein, mediates the negative feedback loop of Wnt/beta-catenin signaling, Oncogene 37, 2992-3005.

[4] Cao, S., Yu, S., Li, D., Ye, J., Yang, X., Li, C., Wang, X., Mai, Y., Qin, Y., Wu, J., He, J., Zhou, C., Liu, H., Zhao, B., Shu, X., Wu, C., Chen, R., Chan, W., Pan, G., Chen, J., Liu, J., and Pei, D. (2018) Chromatin Accessibility Dynamics during Chemical Induction of Pluripotency, Cell Stem Cell 22, 529-542 e525.

[5] Xu, J., Zhang, L., Ye, Y., Shan, Y., Wan, C., Wang, J., Pei, D., Shu, X*., and Liu, J*. (2017) SNX16 Regulates the Recycling of E-Cadherin through a Unique Mechanism of Coordinated Membrane and Cargo Binding, Structure 25, 1251-1263 e1255.

[6] Shan, Y., Liang, Z., Xing, Q., Zhang, T., Wang, B., Tian, S., Huang, W., Zhang, Y., Yao, J., Zhu, Y., Huang, K., Liu, Y., Wang, X., Chen, Q., Zhang, J., Shang, B., Li, S., Shi, X., Liao, B., Zhang, C., Lai, K., Zhong, X., Shu, X., Wang, J., Yao, H., Chen, J., Pei, D., and Pan, G. (2017) PRC2 specifies ectoderm lineages and maintains pluripotency in primed but not naive ESCs, Nat Commun 8, 672.

[7] Li, Q., Hutchins, A. P., Chen, Y., Li, S., Shan, Y., Liao, B., Zheng, D., Shi, X., Li, Y., Chan, W. Y., Pan, G., Wei, S., Shu, X*., and Pei*, D. (2017) A sequential EMT-MET mechanism drives the differentiation of human embryonic stem cells towards hepatocytes, Nat Commun 8, 15166.

[8] Cao, S., Yu, S., Chen, Y., Wang, X., Zhou, C., Liu, Y., Kuang, J., Liu, H., Li, D., Ye, J., Qin, Y., Chu, S., Wu, L., Guo, L., Li, Y., Shu, X., Chen, J., Liu, J., and Pei, D. (2017) Chemical reprogramming of mouse embryonic and adult fibroblast into endoderm lineage, J Biol Chem 292, 19122-19132.

[9] Shu, X*., and Pei*, D. (2016) Pluripotency without Proliferation, Cell 164, 595-597. (preview)

[10] Li, C., Ma, W., Yin, S., Liang, X., Shu, X., Pei, D., Egan, T. M., Huang, J., Pan, A., and Li, Z. (2016) Sorting Nexin 11 Regulates Lysosomal Degradation of Plasma Membrane TRPV3, Traffic 17, 500-514.

[11] Xu, T., Xu, J., Ye, Y., Wang, Q., Shu, X., Pei, D., and Liu, J. (2014) Structure of human SNX10 reveals insights into its role in human autosomal recessive osteopetrosis, Proteins 82, 3483-3489.

[12] Shu, X*., and Pei*, D. (2014) The function and regulation of mesenchymal-to-epithelial transition in somatic cell reprogramming, Current opinion in genetics & development 28, 32-37. (review)

[13] Zhang, L., Qin, D., Hao, C., Shu, X*., and Pei, D*. (2013) SNX16 negatively regulates the migration and tumorigenesis of MCF-7 cells, Cell Regeneration 2, 3.

[14] Xu, J., Xu, T., Wu, B., Ye, Y., You, X., Shu, X., Pei, D., and Liu, J. (2013) Structure of sorting nexin 11 (SNX11) reveals a novel extended phox homology (PX) domain critical for inhibition of SNX10-induced vacuolation, J Biol Chem 288, 16598-16605.

[15] Liu, N., Li, Z., Pei, D., and Shu, X*. (2013) Zfyve9a regulates the proliferation of hepatic cells during zebrafish embryogenesis, Int J Dev Biol 57, 773-778.

[16] Yin, W., Liu, D., Liu, N., Xu, L., Li, S., Lin, S., Shu, X*., and Pei*, D. (2012) SNX17 regulates Notch pathway and pancreas development through the retromer-dependent recycling of Jag1, Cell Regeneration C7 - 4 1, 1-10.

[17] Xu, L., Yin, W., Xia, J., Peng, M., Li, S., Lin, S., Pei, D*., and Shu, X*. (2012) An antiapoptotic role of sorting nexin 7 is required for liver development in zebrafish, Hepatology 55, 1985-1993.

[18] Chen, Y., Wu, B., Xu, L., Li, H., Xia, J., Yin, W., Li, Z., Shi, D., Li, S., Lin, S., Shu, X*., and Pei, D*. (2012) A SNX10/V-ATPase pathway regulates ciliogenesis in vitro and in vivo, Cell Res 22, 333-345.

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[20] Cibrian-Uhalte, E., Langenbacher, A., Shu, X., Chen, J. N., and Abdelilah-Seyfried, S. (2007) Involvement of zebrafish Na+,K+ ATPase in myocardial cell junction maintenance, J Cell Biol 176, 223-230.

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[23] Shu, X., Cheng, K., Patel, N., Chen, F., Joseph, E., Tsai, H. J., and Chen, J. N. (2003) Na,K-ATPase is essential for embryonic heart development in the zebrafish, Development 130, 6165-6173.

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