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1. Sun, F., Xiu, Z., Jiang, R., Liu, Y., Zhang, X., Yang, Y.Z., Li, X.J., Zhang, X., Wang, Y., Tan, B.C.* (2018). The mitochondrial pentatricopeptide repeat protein EMP12 is involved in the splicing of three nad2 introns and seed development in maize. J. Exp. Bot. (doi.org/10.1093/jxb/ery432). 2. Sun, F., Zhang, X., Shen, Y., Wang, H., Liu, R., Wang, X., Gao, D., Yang, Y.Z., Liu, Y., Tan, B.C.* (2018). EMPTY PERICARP8 is required for the mitochondrial nad1 intron4 and nad4 intron 1 splicing, complex I biogenesis and seed development in maize. Plant Journal 95: 919-932. 3. Sun, F., Wang, X., Bonnard, G., Shen, Y., Xiu, Z., Li, X., Gao, D., Zhang, Z., Tan, B.C. (2015). Empty pericarp7 encodes a mitochondrial E-subgroup pentatricopeptide repeat protein that is required for ccmFN editing, mitochondrial function and seed development in maize. Plant Journal 84: 283–295. 4. Sun, F., Suen P., Zhang Y., Liang C., Carrie C., Whelan J., Ward J.L., Hawkins N.D., Jiang L., and Lim B.L. (2012). A dual-targeted purple acid phosphatase in Arabidopsis thaliana moderates carbon metabolism and its overexpression leads to faster plant growth and higher seed yield. New Phytologist 194: 206-219. 5. Sun F.#, Liang C#, Whelan J, Yang J, Zhang P, Lim B.L. (2013). Global transcriptome analysis of AtPAP2 - overexpressing Arabidopsis thaliana with elevated ATP. BMC Genomics 14: 752. (#: co-first author) 6. Sun, F., Carrie C., Law S., Murcha M., Zhang R., Law Y., Suen P., Whelan J. and B. L. Lim. (2012). AtPAP2 is a tail-anchored protein in the outer membrane of chloroplasts and mitochondria. Plant Signaling & Behavior7: 927-932. 7. Li, X.L., Huang, W.L., Yang, H.H., Jiang R.C., Sun, F., Wang, H.C., Zhao, J., Xu, C., Tan, B.C.* (2018). EMP18 functions in mitochondrial atp6 and cox2 transcript editing and is essential to seed development in maize. New Phytologist 219 (doi: 10.1111/nph.15425). 8. Zhang, Y.F., Suzuki, M., Sun, F., Tan, B.C.* (2017). The mitochondrion-targeted PENTATRICOPEPTIDE REPEAT78 protein is required for nad5 mature mRNA stability and seed development in maize. Molecular Plant 10: 1321-1333. 9. Cai, M., Li, S., Sun, F., Sun, Q., Zhao, H., Ren, X., Zhao, Y., Tan, B.C., Zhang, Z.,* Qiu, F.* (2017). Emp10 encodes a mitochondrial PPR protein that affects the cis-splicing of nad2 intron 1 and seed development in maize. Plant Journal 91: 132-144. 10. Yang, Y.Z., Ding, S., Wang, H.C., Sun, F., Huang, W.L., Song, S., Xu, C.H., Tan, B.C.* (2017). The pentatricopeptide repeat protein EMP9 is required for mitochondrial ccmB and rps4 transcript editing, mitochondrial complex biogenesis and seed development in maize. New Phytologist 214: 782-795. 11. Xiu, Z., Sun, F., Shen, Y., Zhang, X., Jiang, R., Bonnard, G., Zhang, J.H., Tan, B.C. (2016). EMP16 is required for mitochondrial nad2 intron 4 cis-splicing and seed development in maize. Plant Journal 85: 507–519. 12. Li, X., Zhang, Y., Hou, M., Sun, F., Shen, Y., Xiu, Z., Wang, X., Chen, Z., Sun, S.S.M., Small, I., Tan, B.C. (2014). Small kernel1 encodes a pentatricopeptide repeat protein required for mitochondrial nad7 transcript editing and seed development in maize and rice. Plant Journal 79: 797–809. 13. Law, Y., Zhang, R., Guan, X., Cheng, S., Sun, F., Duncan, O., Murcha, M.W., Whelan J., Lim, B. L. (2015). Phosphorylation and dephosphorylation of the presequence of precursor MULTIPLE ORGANELLAR RNA EDITING FACTOR3 during import into mitochondria from Arabidopsis. Plant Physiology 169: 1344–1355. 14. Zhang, Y., Sun, F., Fettke, J., Schöttler, M.A., Lawrence R., Alisdair, R.F., Lim, B.L. (2014). Heterologous expression of AtPAP2 in transgenic potato influences carbon metabolism and tuber development, FEBS Letter 588: 3726-3731. 15. Ku Y., Koo N., Li F., Li M., Wang H., Tsai S.,Sun F., Lim B., Ko W., Lam H.M. (2013). GmSAL1 hydrolyzes inositol-1, 4, 5-trisphosphate and regulates stomatal closure in detached leaves and ion compartmentalization in plant cells. PLoS ONE22; 8: e78181. 16. Zhang, Y., Yu L., Yung K., Leung Y.,Sun F.and Lim B. L. (2012). Over-expression of AtPAP2 in Camelina sativa leads to faster plant growth and higher seed yield. Biotechnology Biofuels 5: 19-28.